Altruism in animals

Altruism is a well-documented animal behaviour, which appears most obviously in kin relationships but may also be evident amongst wider social groups, in which an animal sacrifices its own well-being for the benefit of another animal.

Contents

Overview

In the science of ethology (the study of behavior), and more generally in the study of social evolution, on occasion, some animals do behave in ways that reduce their individual fitness but increase the fitness of other individuals in the population; this is a functional definition of altruism.[1] Research in evolutionary theory has been applied to social behaviour, including altruism. Cases of animals helping individuals to whom they are closely related can be explained by kin selection, and are not considered true altruism. Beyond the physical exertions that mothers, and in some species fathers, undertake to protect their young, extreme examples of sacrifice may occur. One example is matriphagy (the consumption of the mother by her offspring) in the spider Stegodyphus. Hamilton's rule describes the benefit of such altruism in terms of Wright's coefficient of relationship to the beneficiary and the benefit granted to the beneficiary minus the cost to the sacrificer. Should this sum be greater than zero a fitness gain will result from the sacrifice.

When apparent altruism is not between kin, it may be based on reciprocity. A monkey will present its back to another monkey, who will pick out parasites; after a time the roles will be reversed. Such reciprocity will pay off, in evolutionary terms, as long as the costs of helping are less than the benefits of being helped and as long as animals will not gain in the long run by "cheating" – that is to say, by receiving favours without returning them. This is elaborated on in evolutionary game theory and specifically the prisoner's dilemma as social theory.

Implications in evolutionary theory

Researchers on alleged altruist behaviours among animals have been ideologically opposed to the social darwinist concept of the "survival of the fittest", under the name of "survival of the nicest" — the latter being globally compatible, however, with the theory of evolution by natural selection. Insistence on such cooperative behaviours between animals was first exposed by the Russian zoologist and anarchist Peter Kropotkin in his 1902 book, Mutual Aid: A Factor of Evolution.

Recent developments in game theory have provided some explanations for apparent altruism, as have traditional evolutionary analyses. Among the proposed mechanisms are:

The study of altruism was the initial impetus behind George R. Price's development of the Price equation which is a mathematical equation used to study genetic evolution. An interesting example of altruism is found in the cellular slime moulds, such as Dictyostelium mucoroides. These protists live as individual amoebae until starved, at which point they aggregate and form a multicellular fruiting body in which some cells sacrifice themselves to promote the survival of other cells in the fruiting body. Social behavior and altruism share many similarities to the interactions between the many parts (cells, genes) of an organism, but are distinguished by the ability of each individual to reproduce indefinitely without an absolute requirement for its neighbors.

Jorge Moll and Jordan Grafman, neuroscientists at the National Institutes of Health and LABS-D'Or Hospital Network (J.M.) provided the first evidence for the neural bases of altruistic giving in normal healthy volunteers, using functional magnetic resonance imaging. In their research, published in the Proceedings of the National Academy of Sciences USA in October, 2006,[3] they showed that both pure monetary rewards and charitable donations activated the mesolimbic reward pathway, a primitive part of the brain that usually lights up in response to food and sex. However, when volunteers generously placed their interests of others before their own by making charitable donations, another brain circuit was selectively activated: the subgenual cortex/septal region. These structures are intimately related to social attachment and bonding in other species. Altruism, the experiment suggested, was not a superior moral faculty that suppresses basic selfish urges but rather was basic to the brain, hard-wired and pleasurable.[4]

A new study by Samuel Bowles at the Santa Fe Institute in New Mexico, US, is seen by some as breathing new life into the model of group selection for altruism, known as "Survival of the nicest". Bowles conducted a genetic analysis of contemporary foraging groups, including Australian aboriginals, native Siberian Inuit populations and indigenous tribal groups in Africa. It was found that hunter-gatherer bands of up to 30 individuals were considerably more closely related than was previously thought. Under these conditions, thought to be similar to those of the middle and upper Paleolithic, altruism towards other group-members would improve the overall fitness of the group.

If an individual defended the group but was killed, any genes that the individual shared with the overall group would still be passed on. Early customs such as food sharing or monogamy could have levelled out the "cost" of altruistic behaviour, in the same way that income taxes redistribute income in society. He assembled genetic, climactic, archaeological, ethnographic and experimental data to examine the cost-benefit relationship of human cooperation in ancient populations. In his model, members of a group bearing genes for altruistic behaviour pay a "tax" by limiting their reproductive opportunities to benefit from sharing food and information, thereby increasing the average fitness of the group as well as their inter-relatedness. Bands of altruistic humans would then act together to gain resources from other groups at this challenging time in history.[5]

Altruist theories in evolutionary biology were contested by Amotz Zahavi, the inventor of the signalling theory and its correlative, the handicap principle, based mainly on his observations of the Arabian Babbler, a bird commonly known for its surprising (alleged) altruistic behaviours.

Researchers in Switzerland have developed an algorithm based on Hamilton's rule of kin selection. The algorithm shows how altruism in a swarm of entities can, over time, evolve and result in more effective swarm behaviour.[6][7]

Examples of animal altruism

See also

References

  1. ^ Robert L. Trivers (1971). "The Evolution of Reciprocal Altruism". The Quarterly Review of Biology 46 (1): 35. doi:10.1086/406755. http://scholar.google.se/scholar?cluster=17273593725342277972&hl=sv&as_sdt=2000. 
  2. ^ Herbert Gintis (September 2000). "Strong Reciprocity and Human Sociality". Journal of Theoretical Biology 206 (2): 169–179. doi:10.1006/jtbi.2000.2111. PMID 10966755. 
  3. ^ Human fronto–mesolimbic networks guide decisions about charitable donation, PNAS 2006:103(42);15623-15628)
  4. ^ Vedantam, Shankar (May 2007). "If It Feels Good to Be Good, It Might Be Only Natural". Washington Post. http://www.washingtonpost.com/wp-dyn/content/article/2007/05/27/AR2007052701056.html. Retrieved April 23, 2010. 
  5. ^ Fisher, Richard (07 December 2006) "Why altruism paid off for our ancestors" (NewScientist.com news service) [1]
  6. ^ Altruism helps swarming robots fly better genevalunch.com, 4 May 2011.
  7. ^ Waibel M, Floreano1 D and Keller L (2011) "A quantitative test of Hamilton's rule for the evolution of altruism" PLoS Biology, 9(5): e1000615. doi:10.1371/journal.pbio.1000615
  8. ^ Mutt-ernal Instincts - Dachshund adopts kitties, Pitbull adopts kitties, Border Collie adopts... tigers? - 2006-09-29
  9. ^ Davidson College, biology department (2001) Bottlenose Dolphins - Altruism, article retrieved March 11, 2009.
  10. ^ Human-like Altruism Shown In Chimpanzees
  11. ^ October 7, 2005, Hour Two:
  12. ^ de Waal, Frans (1996). Good Natured. Harvard University Press. pp. 20–21. ISBN 0-674-35660-8. 
  13. ^ Perry, Julie (April 19, 2002). "Reciprocal Altruism in Vampire Bats". http://www.bio.davidson.edu/people/vecase/behavior/Spring2002/Perry/altruism.html. Retrieved October 10, 2009. 
  14. ^ Hohmann, Ulf; Bartussek, Ingo; Böer, Bernhard (2001) (in German). Der Waschbär. Reutlingen, Germany: Oertel+Spörer. ISBN 978-3886273010. 
  15. ^ Brown, David (August 17, 2007). "Birds' Cooperative Breeding Sheds Light on Altruism". The Washington Post. http://www.washingtonpost.com/wp-dyn/content/article/2007/08/16/AR2007081602257.html. Retrieved April 23, 2010. 
  16. ^ Fackelmann, Kathy A. (1989). "Avian altruism: African birds sacrifice self-interest to help their kin - white-fronted bee eaters". Science News. http://findarticles.com/p/articles/mi_m1200/is_n23_v135/ai_7680117. 
  17. ^ Cheney, D. L. & Seyfarth, R. M. (1990). How monkeys see the world: Inside the mind of another species. University of Chicago Press. ISBN 9780226102467. http://books.google.com/?id=QbWTd85eHUgC. 
  18. ^ "Walrus: Odobenidae - Behavior And Reproduction". http://animals.jrank.org/pages/3099/Walrus-Odobenidae-BEHAVIOR-REPRODUCTION.html. Retrieved 2008-08-12. 
  19. ^ Bordereau, C., Robert, A., Van Tuyen V. & A. Peppuy (1997). "Suicidal defensive behavior by frontal gland dehiscence in Globitermes sulphureus Haviland soldiers (Isoptera)". Insectes Sociaux 44 (3): 289–297. doi:10.1007/s000400050049. 

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