Kleptoparasitism

From Wikipedia, the free encyclopedia

Great Frigatebirds chasing a Red-footed Booby in order to steal its food.
Great Frigatebirds chasing a Red-footed Booby in order to steal its food.

Kleptoparasitism or cleptoparasitism (literally, parasitism by theft) is a form of feeding where one animal takes prey from another that has caught, killed, or otherwise prepared, including stored food (as in the case of cuckoo bees, which lay their eggs on the pollen masses made by other bees). Kleptoparasitism is also the 'stealing' of nest material or other inanimate objects from one animal by another.

The kleptoparasite gains either by obtaining prey or other objects that it could not obtain itself, or by saving the time and effort required to obtain it. However, the kleptoparasite may run the risk of injury from the victim if it is able to defend its property.

Kleptoparasitism may be intraspecific, where the parasite is the same species as the victim, or interspecific, where the parasite is a different species. In the latter case, the parasites are commonly close relatives of the organisms they parasitize ("Emery's Rule").

Animals that have extraordinarily specialized feeding methods are often targets of kleptoparasitism. For example, oystercatchers are unusual in being able to break through the shells of mussels; adult oystercatchers suffer intraspecific kleptoparasitism from juveniles that are not yet strong or skillful enough to open mussels easily. Diving birds that bring their prey to the surface suffer interspecific kleptoparasitism from gulls, which are unable to fetch fish from the sea floor themselves.

Contents

[edit] Arthropods

[edit] Bees and wasps

A cuckoo bee from the genus Nomada.
A cuckoo bee from the genus Nomada.

There are many different lineages of cuckoo bees, all of which lay their eggs in the nest cells of other bees. There is also a family of cuckoo wasps, many of which lay their eggs in the nests of potter and mud dauber wasps; many other lineages of wasps in various families have evolved similar habits. These insects are normally referred to as "cleptoparasites," rather than as "brood parasites." The distinction is that the term "brood parasite" is generally restricted to cases where the immature parasite is fed directly by the adult of the host, and raised as the host's offspring (as is common in birds). Such cases are virtually unknown in bees and wasps, which tend to provide all of the food for the larva before the egg is laid; in only a few exceptional cases (such as parasitic bumblebees) will a bee or wasp female actively feed a larva that is not her own species. The difference is only in the nature of the interaction by which the transfer of resources occurs (tricking a host into handing over food rather than stealing it by force or stealth), which is why brood parasitism is considered a special form of kleptoparasitism.

[edit] Flies

Some flies are kleptoparasites. This includes several flies of the Chloropidae and Milichiidae families. Some adult milichiids, for example, visit spider webs where they scavenge on half-eaten stink bugs. Others are associated with robber flies (Asilidae). Flies in the genus Bengalia (Calliphoridae) steal food and pupae transported by ants and are often found beside their foraging trails.[1]

[edit] Spiders

Kleptoparasitic spiders, which steal or feed on prey captured by other spiders, are known to occur in five families:

[edit] True bugs

Velia caprai (Ardennes, Belgium)
Velia caprai (Ardennes, Belgium)

Many semiaquatic bugs (Heteroptera) are known to engage in kleptoparastism of prey. In one study, whenever the bug Velia caprai (Water Cricket) took prey heaver than 7.9 g, other bugs of the same species joined it and successfully ate parts of the prey.[3]

[edit] Vertebrates

[edit] Birds

Kleptoparasitism is relatively uncommon in birds; most species do not practice such piracy.[4] However, some non-passerine groups, such as skuas, jaegers and frigatebirds, rely extensively on such behavior to obtain food, and others—including raptors, gulls, terns, coots, and some ducks and shorebirds—will do so opportunistically. Among opportunistic species such as the Roseate Tern, research has found that parent birds involved in kleptoparasitism are more successful in raising broods than non-kleptoparasitic individuals.[5] Bald Eagles can also be seen attacking smaller raptors, such as Ospreys, to steal fish away from them.[6] Among passerine birds, there are fewer known examples of kleptoparasitism, though Masked Shrikes have been recorded stealing food from wheatears,[7] and Eurasian Blackbirds have been seen stealing smashed snails from other thrushes.[4]


Arctic Skua (Stercorarius parasiticus) in pursuit of Black-legged Kittiwake (Rissa tridactyla)
Arctic Skua (Stercorarius parasiticus) in pursuit of Black-legged Kittiwake (Rissa tridactyla)

Skuas (including the smaller species known as jaegers in North America) are masters of piracy. Their victims are typically gulls and terns, though other fish-eating species (including auks) are also pursued until they disgorge their catches. The fact that skuas are swift and agile fliers—and that they sometimes gang up on a single victim—aid in their success rate.

During seabird nesting seasons, frigatebirds will soar above seabird colonies, waiting for parent birds to return to their nests with food for their young. As the returning birds approach the colony, the frigatebirds (which are fast and agile) drop down and pursue them vigorously; they have been known to seize tropicbirds by their long tail plumes. Many of the frigatebirds' colloquial names, including Man-o'-War Bird and Pirate of the Sea, are a clear reference to this kleptoparasitic behaviour.[8] A study of kleptoparasitism in the Magnificent Frigatebird suggests that the amount of food obtained by kleptoparasitism may be marginal.[9]

Intraspecific kleptoparasitism often occurs between gulls.
Intraspecific kleptoparasitism often occurs between gulls.

Gulls are the perpetrators as well as the victims of kleptoparasitism, with some species frequently exhibiting the behavior, particularly during the breeding season. While the victim is most often another member of the same species, other (principally smaller) gulls and terns are also targeted. In the Americas, Heermann's Gulls and Laughing Gulls are known to steal food from Brown Pelicans; as the pelicans surface and empty the water from their bills, the gulls lurk nearby and grab escaping food items.[10]

Several species of coots and gallinules have been recorded engaging in kleptoparasitism.[11] American Coots often feed in the company of other waterfowl species, and occasionally will rob diving ducks—including Ring-necked Ducks, Redheads and Canvasback—when they surface with food. Eurasian Coots steal from conspecifics, as well as from diving and dabbling ducks, and swans. Allen's Gallinules rob both conspecifics and African Pygmy Geese.

[edit] Mammals

The relationship between Spotted Hyenas and Lions, in which each species steals the other's kills,[12] is a form of kleptoparasitism.[3] All hyena species engage in this behavior when they can, and jackals also steal from other carnivores' kills.[13]

[edit] References

  1. ^ Sivinski, J., S. Marshall and E. Petersson (1999) Kleptoparasitism and phoresy in the diptera. Florida Entomologist 82(2) [1]
  2. ^ Coyl, F.A., O'Shields, T.C. & Perlmutter, D.G. (1991). Observations on the behaviour of the kleptoparasitic spider, Mysmenopsis furtiva (Araneae, Mysmenidae). Journal of Arachnology, 19, 62–66. PDF
  3. ^ a b Erlandsson, Ann (1988). "Food sharing vs monopolising prey: a form of kleptoparasitism in Velia caprai (Heteroptera)". Oikos 53: 203–206. 
  4. ^ a b Ehrlich, Paul R.; Dobkin, David S.; Wheye, Darryl & Pimm, Stuart L. (1994), The Birdwatcher's Handbook, Oxford: Oxford University Press, ISBN 0198584075 
  5. ^ David A. Shealer, Jeffrey A. Spendelow, Jeff S. Hatfield and Ian C. T. Nisbet 2005. The adaptive significance of stealing in a marine bird and its relationship to parental quality. Behavioral Ecology 16(2):371-376; doi:10.1093/beheco/ari008
  6. ^ Jorde, D.G.; Lingle, G (1998). "Kleptoparasitism by Bald Eagles wintering in South-Central Nebraska.". Journal of Field Ornithology 59 (2): 183-188. 
  7. ^ Harris, Tony & Franklin, Kim (2000), Shrikes & Bush-Shrikes, London: Christopher Helm, ISBN 0-7136-3861-3 
  8. ^ Sibley, David (2001), The Sibley Guide to Bird Life and Behaviour, London: Christopher Helm, ISBN 0713662506 
  9. ^ Itzia Calixto-Albarrán and José-Luis Osorno 2000. The diet of the Magnificent Frigatebird during chick rearing. The Condor 102(3):569–576
  10. ^ del Hoyo, Josep; Elliott, Andrew & Sargatal, Jordi, eds. (1996), Handbook of Birds of the World vol. 3, Barcelona: Lynx Edicions, ISBN 84-87334-20-2 
  11. ^ Taylor, Barry & van Perlo, Ber (1998), Rails, London: Christopher Helm, ISBN 1-873403-59-3 
  12. ^ Estes, Richard D. (1999). The Safari Companion: A Guide to Watching African Mammals. Chelsea Green, 294. ISBN 1-890132-44-6. 
  13. ^ Estes, op. cit., 281–295, 339–346