Swarm

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This article is about swarms in biology. For other uses, see Swarm (disambiguation).
"Schooling" redirects here. For the concept related to teaching, see education.
Shoal of the colorful squirrelfish Sargocentron xantherythrum at the Rapture Reef, French Frigate Shoals.
Shoal of the colorful squirrelfish Sargocentron xantherythrum at the Rapture Reef, French Frigate Shoals.

The term swarm (shoaling, swarming or flocking) is applied to fish, insects, birds and microorganisms, such as bacteria, and describes a behavior of an aggregation (school) of animals of similar size and body orientation, generally cruising in the same direction. Group size is a major aspect of the social environment of participants.

Swarming of honey bees is a more specific term, referring to the reproductive action of an entire colony of bees (as opposed to the reproduction of single bees); see Queen bee and Honey bee life cycle.

Contents

[edit] Fish

Underwater video (looping) of a shoal of Atlantic herring Clupea harengus on its migration to their spawning grounds in the Baltic Sea. With such high speed they can migrate over thousands of kilometers. Some scientists are of the opinion that cruising in a close group minimizes energy consumption, one fish utilizing the pressure field created by the next fish. In the North Atlantic, herring cruise between Norway and Greenland every year.
Underwater video (looping) of a shoal of Atlantic herring Clupea harengus on its migration to their spawning grounds in the Baltic Sea. With such high speed they can migrate over thousands of kilometers. Some scientists are of the opinion that cruising in a close group minimizes energy consumption, one fish utilizing the pressure field created by the next fish. In the North Atlantic, herring cruise between Norway and Greenland every year.

Shoal can describe any group of fish, including mixed-species groups, reserving "school" for more closely knit groups of the same species swimming in a highly synchronized and polarized manner.

Fish derive many benefits from shoaling behaviour including defense against predators (through better predator detection and by diluting the chance of capture), enhanced foraging success, and higher success in finding a mate. It is also likely that fish benefit from shoal membership through increased hydrodynamic efficiency.

Juvenile herring hunt in shoals for very alert and evasive copepods : The copepods can sense with their antennae the pressure-wave of the approaching herring and react with a fast escape jump. The length of the jump is quite consistent. The fish arrange themselves in a grid of this characteristic jumplength. The copepods can dart about 80 times before they tire out. It takes 60 milliseconds to spread out the antennae again, and this time slot is used by the herring to finally snap a copepod. A lone juvenile herring would never be able to catch a large copepod ("Synchropredation" — results from in situ videos taken from the ATOLL laboratory).
Juvenile herring hunt in shoals for very alert and evasive copepods : The copepods can sense with their antennae the pressure-wave of the approaching herring and react with a fast escape jump. The length of the jump is quite consistent. The fish arrange themselves in a grid of this characteristic jumplength. The copepods can dart about 80 times before they tire out. It takes 60 milliseconds to spread out the antennae again, and this time slot is used by the herring to finally snap a copepod. A lone juvenile herring would never be able to catch a large copepod ("Synchropredation" — results from in situ videos taken from the ATOLL laboratory).

Fish use many traits to choose shoalmates. Generally they prefer larger shoals, shoalmates of their own species, shoalmates similar in size and appearance to themselves, healthy fish, and kin (when recognized).

The "oddity effect" posits that any shoal member that stands out in appearance will be preferentially targeted by predators. This may explain why fish prefer to shoal with individuals that resemble them. The oddity effect would thus tend to homogenize shoals.

One puzzling aspect of shoal selection is how a fish can choose to join a shoal of animals similar to themselves, given that it cannot know its own appearance. Experiments with zebrafish have shown that shoal preference is a learned ability, not innate. A zebrafish tends to associate with shoals that resemble shoals in which it was reared (that is, a form of imprinting).

Other open questions of shoaling behaviour include identifying which individuals are responsible for the direction of shoal movement. In the case of migratory movement, most members of a shoal seem to know where they are going. In the case of foraging behaviour, ethologist Stephan Reebs, writing in the journal Animal Behaviour, reported that captive shoals of golden shiner (a kind of minnow) were led by a small number of experienced individuals who knew when and where food was available.[1]

[edit] Quotes

Shoal of Silver moony at Madagascar
Shoal of Silver moony at Madagascar
  • "One of the most striking behaviours of a shoal is its synchronization. Hundreds of small fish glide in unison, more like a single organism than a collection of individuals" Hiro-Sato Niwa, Journal of Theoretical Biology, 1996: 181,p 47

[edit] Examples

This is a partial list of animals that swarm.

[edit] See also

[edit] External links

New York times article on investigations into swarming

Christian Jacob, Ph.D - swarm computer simulation

Lessons from Mother Nature on How to Manage Traffic - Daily Planet on Discovery Channel

[edit] References

  1. ^ Reebs, S.G. 2000. Can a minority of informed leaders determine the foraging movements of a fish shoal? Animal Behaviour 59: 403-409.
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