Co-evolution

Co-evolution

In a broad sense, biological co-evolution is "the change of a biological object triggered by the change of a related object". [cite journal | title=An integrated system for studying residue coevolution in proteins | author=Yip et al | journal=Bioinformatics | year=2008 | volume=24 | issue=2 | pages=290-292 | url=http://bioinformatics.oxfordjournals.org/cgi/content/full/24/2/290 | doi=10.1093/bioinformatics/btm584] Coevolution can occur at multiple levels of biology: it can be as microscopic as correlated mutations between amino acids in a protein, or as macroscopic as covarying traits between different species in an environment. Each party in a co-evolutionary relationship exerts selective pressures on the other, thereby affecting each others' evolution. Species-level co-evolution includes the evolution of a host species and its parasites, and examples of mutualism evolving through time. Evolution in response to abiotic factors, such as climate change, is not coevolution (since climate is not alive and does not undergo biological evolution). Evolution in a one-on-one interaction, such as that between predator and prey, host-symbiont or host-parasitic pair, is coevolution. But many cases are less clearcut: a species may evolve in response to a number of other species, each of which is also evolving in response to a set of species. This situation has been referred to as "diffuse coevolution". And, certainly, for many organisms, the biotic (living) environment is the most prominent selective pressure, resulting in evolutionary change.

Examples of co-evolution include pollination of Angraecoid orchids by African moths. These species co-evolve because the moths are dependent on the flowers for nectar and the flowers are dependent on the moths to spread their pollen so they can reproduce. The evolutionary process has led to deep flowers and moths with long probosci.

Co-evolution also occurs between predator and prey species as in the case of the Rough-skinned Newt ("Taricha granulosa") and the common garter snake ("Thamnophis sirtalis"). In this case, the newts produce a potent nerve toxin that concentrates in their skin. Garter snakes have evolved resistance to this toxin through a set of genetic mutations, and prey upon the newts. The relationship between these animals has resulted in an evolutionary arms race that has driven toxin levels in the newt to extreme levels. Coevolution processes were modeled by Leigh Van Valen as the theory of the Red Queen. Emphasizing the importance of the sexual conflict, Thierry Lodé privileged the role of "antagonist interactions" (notably sexual) in evolution leading to an antagonist coevolution. [cite book | last=Lodé | first=Thierry | title=La guerre des sexes chez les animaux, une histoire naturelle de la sexualité | publisher=Odile Jacob | year=2007 | location=Paris | url=http://www.amazon.fr/guerre-sexes-chez-animaux-naturelle/dp/2738119018 | isbn=2738119018]

Co-evolution does not imply mutual dependence. The host of a parasite, or prey of a predator, does not depend on its enemy for survival.

The existence of mitochondria within eukaryote cells is an example of co-evolution as the mitochondria has a different DNA sequence than that of the nucleus in the host cell. This concept is described further by the endosymbiotic theory.

Co-evolutionary algorithms are also a class of algorithms used for generating artificial life as well as for optimization, game learning and machine learning. Pioneering results in the use of co-evolutionary methods were by Daniel Hillis (who co-evolved sorting networks) and Karl Sims (who co-evolved [http://www.genarts.com/karl/evolved-virtual-creatures.html virtual creatures] ).

In his book "The Self-organizing Universe", Erich Jantsch attributed the entire evolution of the cosmos to co-evolution.

In astronomy, an emerging theory states that black holes and galaxies develop in an interdependent way analogous to biological co-evolution. [cite web | last=Britt | first=Robert | title=The New History of Black Holes: 'Co-evolution' Dramatically Alters Dark Reputation | url=http://www.space.com/scienceastronomy/blackhole_history_030128-1.html]

pecific examples

Hummingbirds and ornithophilous flowers

Hummingbirds and ornithophilous flowers have evolved to form a mutualistic relationship. It is prevalent in the bird’s biology as well as in the flower’s. Hummingbird flowers have nectar chemistry associated with the bird’s diet. Their color and morphology also coincide with the bird’s vision and morphology. The blooming times of these ornithophilous flowers have also been found to coincide with hummingbirds' breeding seasons.

Flowers have converged to take advantage of similar birds.cite journal | title=Convergence, Competition, and Mimicry in a Temperate Community of Hummingbird-Pollinated Flowers | author=Brown James H., Kodric-Brown Astrid | journal=Ecology | year=1979 | volume=60 | issue=5 | pages=1022-1035 | url=http://www.jstor.org/sici?sici=0012-9658(197910)60%3A5%3C1022%3ACCAMIA%3E2.0.CO%3B2-D] Flowers compete for pollinators and adaptations reduce deleterious effects of this competition. Bird-pollinated flowers usually show higher nectar volumes and sugar production.cite journal | title=Geographical Aspects of Bird Flower Coevolution, with Particular Reference to Central America | author=Stiles, F. Gary | journal=Annals of the Missouri Botanical Garden | year=1981 | volume=68 | issue=2 | pages=323-351 | url=http://www.jstor.org/sici?sici=0026-6493(1981)68:2%3C323:GAOBCW%3E2.0.CO;] This reflects high energy requirements of the birds. Energetic criteria are the most important determinants of flower choice by birds. Following their respective breeding seasons, several species of hummingbirds co-occur in North America, and several hummingbird flowers bloom simultaneously in these habitats. These flowers seem to have converged to a common morphology and color. Different lengths and curvatures of the corolla tubes can affect the efficiency of extraction in hummingbird species in relation to differences in bill morphology. Tubular flowers force a bird to orient its bill in a particular way when probing the flower, especially when the bill and corolla are both curved; this also allows the plant to place pollen on a certain part of the bird’s body. This opens the door for a variety of morphological co-adaptations.

An important requisite for attraction is conspicuousness to birds, which reflects the properties of avian vision and habitat features. Birds have their greatest spectral sensitivity and finest hue discrimination at the long wavelength end of the visual spectrum. This is why red is so conspicuous to birds. Hummingbirds may also be able to see ultraviolet “colors” (Stiles 1981). The prevalence of ultraviolet patterns and nectar guides in nectar-poor entomophilous flowers allows the bird to avoid these flowers on sight. Two subfamilies in the family Trochilidae are Phaethorninae and Trochlinae. Each of these groups has evolved in conjunction with a particular set of flowers. Most Phaethorninae species are associated with large monocotyledonous herbs, and members of the subfamily Trochilinae are associated with dicotyledonous plant species.

Molecular coevolution

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Technological co-evolution

Computer software and hardware can be considered as two separate components but tied intrinsically by co-evolution. Similarly, operating systems and computer applications, web browsers and web applications.All of these systems depend upon each other and advance step by step through a kind of evolutionary process. Changes in hardware, an operating system or web browser may introduce new features that are then incorporated into the corresponding applications running alongside.

Bibliography

* Michael Pollan "". Bloomsbury. ISBN 0-7475-6300-4. Account of the co-evolution of plants and humans
* Dawkins, R. "Unweaving the Rainbow" and other books.
*Geffeney, Shana L., et al. “Evolutionary diversification of TTX-resistant sodium channels in a predator-prey interaction”. Nature 434 (2005): 759–763.

ee also

* Bak-Sneppen model
* Character displacement
* Co-adaptation
* Coextinction
* sexual conflict
* Lynn Margulis
* Technological evolution

References

Further reading

*cite book |title=Coevolution |author=Futuyma, D. J. and M. Slatkin (editors)|year=1983 |publisher=Sinauer Associates |location=Sunderland, Massachusetts |isbn=0878932283 |pages=555 pp
*cite book |title=The Coevolutionary Process |author= Thompson, J. N. | year=1994 | publisher=University of Chicago Press | location=Chicago | isbn=0226797597 | pages=376 pp


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