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Note I peer edited for Rachael Hopp and Neil Gilbert. Total words added: 501. Words added in asterisks.

A phylogenetic tree of living things

Evolutionary ecology lies at the intersection of ecology and evolutionary biology. It approaches the study of ecology in a way that explicitly considers the evolutionary histories of species and the interactions between them. Conversely, it can be seen as an approach to the study of evolution that incorporates an understanding of the interactions between the species under consideration. The main subfields of evolutionary ecology are life history evolution, sociobiology (the evolution of social behavior), the evolution of interspecific relations (cooperation, predator–prey interactions, parasitism, mutualism) and the evolution of biodiversity and of communities.

Pristine, natural environments that have been relatively unaltered by humans are of particular importance in evolutionary ecology because they constitute the environments to which any particular organism has become adapted to over time.[1]

Evolutionary ecologists

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Julia Margaret Cameron’s portrait of Darwin

Evolutionary models

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A large part of Evolutionary ecology is about utilising models and finding empirical data as proof.[9] Examples include the Lack clutch size model devised by David Lack *and his study of Darwin's finches on the Galapagos Islands. Lack's study of Darwin's finches was important in analyzing the role of different ecological factors in speciation. Lack suggested that differences in species were adaptive and produced by natural selection, based on the assertion by G.F. Gause that two species cannot occupy the same niche.*[10].

Richard Levins introduced his model of the specialization of species in 1968, *which investigated how habitat specialization evolved within heterogeneous environments using the fitness sets an organism or species possesses. This model developed the concept of spatial scales in specific environments, defining fine-grained spatial scales and coarse-grained spatial scales.* [11] *The implications of this model include a rapid increase in environmental ecologists' understanding of how spatial scales impact species diversity in a certain environment.* [12]

Another model is Law & Diekmann's 1996 models on mutualism, *which is defined as a relationship between two organisms that benefits both individuals*.[13] *Law and Diekmann developed a framework called adaptive dynamics, which assumes that changes in plant or animal populations in response to a disturbance or lack thereof occurs at a faster rate than mutations occur. It is aimed to simplify other models addressing the relationships within communities.* [14]

Evolutionary ecology in research

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*Rosenzweig's idea of Reconciliation ecology was developed based on existing research, which was conducted on the principle first suggested by Alexander von Humboldt stating that larger areas of land will have increased species diversity as compared to smaller areas. This research focused on species-area relationships (SPARs) and the different scales on which they exist, ranging from sample-area to interprovincial SPARs. Steady-state dynamics in diversity gave rise to these SPARs, which are now used to measure the reduction of species diversity on Earth. In response to this decline in diversity, Rosenzweig's Reconciliation ecology was born.* [15]
*Evolutionary ecology has been studied using symbiotic relationships between organisms to determine the evolutionary forces by which such relationships develop. In symbiotic relationships, the symbiont must confer some advantage to its host in order to persist and continue to be evolutionarily viable. Research has been conducted using aphids and the symbiotic bacteria with which they coevolve. These bacteria are most frequently conserved from generation to generation, displaying high levels of vertical transmission. Results have shown that these symbiotic bacteria ultimately confer some resistance to parasites to their host aphids, which both increases the fitness of the aphids and lead to symbiont-mediated coevolution between the species.* [16]

See also

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Other references

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  • Fox, C.W., Roff, D.A. and Fairbairn, D.J. 2001. Evolutionary Ecology: Concepts and Case Studies. Oxford University Press.
  • Mayhew, P.J. 2006. Discovering Evolutionary Ecology: Bringing Together Ecology and Evolution. Oxford University Press.
  • Pianka, E.R. 2000. Evolutionary Ecology, 6th ed. Benjamin Cummings.

References

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  1. ^ Eric R. Pianka. 2011. Evolutionary Ecology. Seventh Edition - eBook. Page 6. Accessed 7 June 2014.
  2. ^ Eric R. Pianka. 2011. Evolutionary Ecology. Seventh Edition - eBook. Page 13. Accessed 7 June 2014.
  3. ^ Lovejoy, Thomas E. “GEORGE EVELYN HUTCHINSON: 13 January 1903 — 17 May 1991.” Biographical Memoirs of Fellows of the Royal Society, vol. 57, 2011, pp. 167–177. JSTOR, JSTOR, www.jstor.org/stable/41412876
  4. ^ "Macarthur, Robert Helmer." Complete Dictionary of Scientific Biography, vol. 18, Charles Scribner's Sons, 2008, pp. 578-580. Gale Virtual Reference Library, go.galegroup.com/ps/i.do?p=GVRL&sw=w&u=tusc49521&v=2.1&id=GALE%7CCX2830905234&it=r&asid=9f2815d83a22938a7fde1bee0edd1ab1. Accessed 10 Nov. 2017.
  5. ^ Luiselli, Luca. “Community ecology of African reptiles: historical perspective and a meta-Analysis using null models.” African Journal of Ecology, vol. 46, no. 3, Sept. 2008, pp. 384–394. Web of Science, doi:10.1111/j.1365-2028.2007.00870.x.
  6. ^ Rosenzweig, Michael L. “Reconciliation ecology and the future of species diversity.” Oryx, vol. 37, no. 02, 10 Feb. 2003, doi:10.1017/s0030605303000371.
  7. ^ Thierry Lodé 2014. Manifeste pour une écologie évolutive. Eds Odile Jacob, Paris.
  8. ^ Lodé, Thierry, et al. “Asynchronous arrival pattern, operational sex ratio and occurrence of multiple paternities in a territorial breeding anuran, Rana dalmatina.” Biological Journal of the Linnean Society, vol. 86, no. 2, 2005, pp. 191–200., doi:10.1111/j.1095-8312.2005.00521.x.
  9. ^ Morozov, Andrew (2013-12-06). "Modelling biological evolution: recent progress, current challenges and future direction". Interface Focus. 3 (6). doi:10.1098/rsfs.2013.0054. ISSN 2042-8898. PMC 3915852.
  10. ^ "Lack, David Lambert." Complete Dictionary of Scientific Biography, vol. 17, Charles Scribner's Sons, 2008, pp. 521-523. Gale Virtual Reference Library, go.galegroup.com/ps/i.do?p=GVRL&sw=w&u=tusc49521&v=2.1&id=GALE%7CCX2830905204&it=r&asid=f73ad736d17e749682f6a72c03aeca54. Accessed 10 Nov. 2017.
  11. ^ Brown, Joel S., and Noel B. Pavlovic. “Evolution in heterogeneous environments: Effects of migration on habitat specialization.” Evolutionary Ecology, vol. 6, no. 5, 1992, pp. 360–382., doi:10.1007/bf02270698.
  12. ^ Hart, Simon P., et al. “The spatial scales of species coexistence.” Nature Ecology & Evolution, vol. 1, no. 8, 2017, pp. 1066–1073., doi:10.1038/s41559-017-0230-7.
  13. ^ Bronstein, Judith. “Mutualisms and Symbioses.” Oxford Bibliographies, 20 Nov. 2017, www.oxfordbibliographies.com/view/document/obo-9780199830060/obo-9780199830060-0006.xml.
  14. ^ Akçay, Erol. (2015). Evolutionary models of mutualism. In J. L. Bronstein (Ed.), Mutualism (pp. 57-76). New York, NY: Oxford University Press.
  15. ^ Rosenzweig, Michael L. “Reconciliation ecology and the future of species diversity.” Oryx, vol. 37, no. 02, 10 Feb. 2003, doi:10.1017/s0030605303000371.
  16. ^ Vorburger, Christoph, et al. “Comparing constitutive and induced costs of symbiont-Conferred resistance to parasitoids in aphids.” Ecology and Evolution, vol. 3, no. 3, 2013, pp. 706–713., doi:10.1002/ece3.491.
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