Chemical mimicry

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Ophrys lutea, an orchid species with flowers that mimic the pheromones of female insects

Chemical mimicry is a type of biological mimicry. A chemical mimic dupes an operator (e.g. a predator) by showing an adaptive chemical resemblance to an object of its environment and as a consequence receives selective advantage.[1] Note, that a chemical mimic can always be detected as an interesting entity to the operator, while organisms showing chemical crypsis (resemblance of the background) cannot be detected as discrete entity by an operator. Chemical masquerade should also be distinguished from chemical mimicry. It is the resemblance of an uninteresting object that can be detected by the operator (e.g. resemblance of a stick or leave in a visual context). Chemical mimicry may be used in combination with mimicry in other sensory modes (e.g. visual, auditory, tactile) or by itself. This sort of mimicry is less obvious to humans and thus has not received as much attention from researchers as other forms (like visual mimicry) have.[2] Examples include spiders mimicking sex pheromones of moths in order to catch them,[3] plant mimicry of insect alarm pheromones which stops them from attacking the plant,[4] or insects that exploit social insect societies by duping workers to be nestmates.[5]

Examples

The attraction of male insects to sex pheromones is exploited by a number of parties. Because finding a mate is essential for a male's reproductive success, there is strong selection on males to respond to these chemical signals. Other signallers can benefit from mimicking these pheromones, for example bolas spiders, orchids or even other males of the same species (intraspecific mimicry).[6]

Parasitic Cuckoo bees (subgenus Psithyrus), such as Bombus bohemicus, invade the hives of other bumblebees, mimicking species- and colony-specific chemical signals to enter the hive without being attacked by host workers.[7]

Some plants have their seeds dispersed by ants, a phenomenon called myrmecochory. Seeds have a nutritious attachment called an elaiosome which functions as a food reward for the ants. In some cases the elaiosomes seem to chemically mimic insect prey. Brew et al. (1989) write that "[w]hile the nutrient composition of elaiosomes may provide the underlying selective advantage for ants in seed dispersal, specific compounds may manipulate their behaviour and maximize seed dispersal."[8]

See also

References

  1. ^ von Beeren, Christoph; Pohl, Sebastian; Witte, Volker (2012). "On the Use of Adaptive Resemblance Terms in Chemical Ecology". Psyche. 2012. doi:10.1155/2012/635761.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  2. ^ Dettner, K.; Liepert, C. (1994). "Chemical mimicry and camouflage". Annual Review of Entomology. 39: 129–154. doi:10.1146/annurev.en.39.010194.001021.
  3. ^ Yeargan, K.V. (1994). "Biology of bolas spiders". Annual Review of Entomology. 39: 81–99. doi:10.1146/annurev.en.39.010194.000501.
  4. ^ Gibson, R.W.; Pickett, J.A. (1983). "Wild potato repels aphids by release of alarm pheromone". Nature. 302 (5909): 608–609. doi:10.1038/302608a0.
  5. ^ von Beeren, Christoph; Schulz, Stefan; Hashim, Rosli; Witte, Volker. "Acquisition of chemical recognition cues facilitates integration into ant societies". BMC Ecology. 11: 30.
  6. ^ Wyatt, Tristram D. (2003). Pheromones and Animal Behaviour. Cambridge: Cambridge University Press. p. 240. ISBN 0-521-48526-6.
  7. ^ Kreuter, Kirsten; Elfi Bunk (November 23, 2011). "How the social parasitic bumblebee Bombus bohemicus sneaks into power of reproduction". Behavioral Ecology and Sociobiology 66 (3): 475–486. doi:10.1007/s00265-011-1294-z. Retrieved 21 September 2015.
  8. ^ Brew, C.R.; O'Dowd, D.J.; Rae, I.D. (1989). "Seed dispersal by ants: behaviour-releasing compounds in elaiosomes". Oecologia. 80 (4): 490–497. doi:10.1007/BF00380071.

Further reading

  • Buhner, Stephen (2002). The Lost Language of Plants. Vermont: Chelsea Green. {{cite book}}: Cite has empty unknown parameter: |coauthors= (help)
  • Stowe, M.K. (1998). "Chemical Mimicry". In K.C. Spencer (ed) (ed.). Chemical Mediation of Coevolution. London: Academic Press. {{cite book}}: |editor= has generic name (help); Cite has empty unknown parameter: |coauthors= (help)
  • Bernklau, E.J (1996). "Chemical Mimicry in Pollination". Colorado State University. Retrieved 2010-05-02.
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