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Influence of food and predatory attack on mysid swarm dynamics

Citation

Ritz, DA and Osborn, JE and Ocken, AEJ, Influence of food and predatory attack on mysid swarm dynamics, Journal of the Marine Biological Association of the United Kingdom, 77, (1) pp. 31-42. ISSN 0025-3154 (1997) [Refereed Article]

DOI: doi:10.1017/S0025315400033762

Abstract

Using video and image analysis techniques we analysed the response of swarms of the mysid Paramesopodopsis tufa to food and predatory attack. After food was added to the tank, mysid aggregations initially (up to 45 s) increased in volume. Subsequently volume decreased significantly until it was smaller than the initial level. After a period of ~12 h during which no food was added, the swarm expanded to near its original volume. These changes are interpreted as resulting from a need by individuals to optimize food capture and protection. The pattern of volume changes in response to food was independent of aquarium size but the magnitude of the changes was reduced in a smaller tank. Predatory attacks on mysid swarms were simulated using a model fish which 'swam' a single pass along the tank driven by an electric motor. Models (latex-covered real preserved fish), represented two different attack styles: ambush (seahorse Hippocampus abdominalis); and lunging (Australian salmon Arripis trutta). 'Swimming' speeds resembled those measured for real fish i.e. 0.5-2.0 cm s-1 for seahorse and 15 cm s-1 for salmon. Again changes in swarm volume were recorded. No obvious response by the swarm to the approaching seahorse was apparent; the aggregation simply parted to allow the fish through. No tailflips were seen among the mysids. The swarm resumed the original volume rapidly after the fish had passed. Approach of the salmon was evidently detected from further away, escape reactions were frequent and energetic, and tailflipping was common. After the fish had passed, it took longer for the original swarm volume to be restored. These results suggest that seahorse ambush techniques have evolved to minimize warning of the predator's approach. When the salmon 'menaced' the swarm at seahorse speeds, it appeared the mysids still reacted as though it was a 'normal' salmon attack so the fright response was not just a function of speed of attack. Dynamic changes in swarm volume seem to be a useful simple index of motivational state of individuals.

Item Details

Item Type:Refereed Article
Research Division:Biological Sciences
Research Group:Zoology
Research Field:Zoology not elsewhere classified
Objective Division:Expanding Knowledge
Objective Group:Expanding Knowledge
Objective Field:Expanding Knowledge in the Environmental Sciences
Author:Ritz, DA (Associate Professor David Ritz)
Author:Osborn, JE (Dr Jon Osborn)
Author:Ocken, AEJ (Mr Andreas Theresa Johonin Ocken)
ID Code:10642
Year Published:1997
Web of Science® Times Cited:15
Deposited By:Geography and Environmental Studies
Deposited On:1997-08-01
Last Modified:2011-08-11
Downloads:0

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