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References

Published online by Cambridge University Press:  06 November 2020

Mike Cassidy
Mike Cassidy
Affiliation:
Durham University
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Biological Evolution
An Introduction
 , pp. 251 - 254
Publisher: Cambridge University Press
Print publication year: 2020

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References

Primary Sources

Coyne, J. A. (2009) Why Evolution Is True. Oxford University Press, Oxford.Google Scholar
Darwin, C. R. (1859) On the Origin of Species by Means of Natural Selection or the Preservation of Favoured Races in the Struggle for Life. John Murray, London.Google Scholar
Kuhn, T. (1996) The Structure of Scientific Revolutions. 3rd ed. University of Chicago Press, Chicago, IL.Google Scholar
Lack, D. (1947) Darwin’s Finches. Cambridge University Press. (One of the most important books on Darwin’s finches. Reissued with a new introduction and notes: 1983.)Google Scholar
Petren, K., Grant, B. R., and Grant, P. R. (1999) A Phylogeny of Darwin's Finches Based on Microsatellite DNA Length Variation. Proceedings: Biological Sciences, Vol 266. Royal Society, London.Google Scholar
Skinner, M. K., Gurerrero-Bosagna, C., Muksitul Haque, M. et al. (2014) Epigenetics and the Evolution of Darwin’s Finches. Genome Biology and Evolution, 6, 19721989.CrossRefGoogle ScholarPubMed
Tristram, C. H. B. (1859) Ornithology of North Africa: The Ibis (1). Wiley, London.Google Scholar

Secondary Sources

Belon, P. (1555) L' histoire de la nature des oyseaux: avec leurs descriptions, & naïfs portraicts retirez du naturel: escrite en sept livres (The Natural History of Birds with Descriptions and Illustration Taken from Nature: in Seven Volumes). A. V. Roy, Paris.Google Scholar
Coyne, J. A. (2009) Why Evolution Is True. Oxford University Press, Oxford.Google Scholar
Haeckel, E. (1866) Generelle morphologie der organismen (General Morphology of the Organisms). G. Reimer, Berlin.CrossRefGoogle Scholar
Kitts, D. B. (1974) Palaeontology and evolutionary theory. Evolution, 28, 458473.Google Scholar
Monahan, W. B. (2008) Wing microevolution in the house sparrow predicted by model of optimized wing loading. The Condor, 110, 161–166.CrossRefGoogle Scholar
Vilstrup, J. T, Seguin-Orlando, A., Stiller, M. et al. (2013) Mitochondrial phylogenomics of modern and ancient equid. PLoS ONE, 8, 112.Google Scholar
Bateson, W. (1902) Mendel’s Principles of Heredity (A Defence). Cambridge University Press, London.Google Scholar
Hendry, A. P., Grant, P. R., Grant, B. R. et al. (2006) Possible human impacts on adaptive radiation: beak size bimodality in Darwin's finches. Proceedings of the Royal Society B: Biological Sciences, 273(1596), 18871894.Google Scholar
Silvertown, J., Cook, L., Cameron, R. et al. (2011) Citizen science reveals unexpected continental-scale evolutionary change in a model organism. PLoS ONE, 6(4), e18927.Google Scholar
Ford, E. B. (1964) Ecological Genetics. Chapman & Hall, London.Google Scholar
Richards, A. J. (1996) Genetic variability in obligate apomicts of the genus Taraxacum. Folia Geobotanica et Phytotaxonomica, 31, 405414.Google Scholar
Arthur, W. (2002) The emerging conceptual framework of evolutionary developmental biology. Nature, 415, 757764.Google Scholar
Averof, M. and Akam, M. (1995) Hox genes and the diversification of insect and crustacean body plans. Nature, 376, 420423.Google Scholar
Lappin, T. R., Grier, D. G, Thompson, A. and Halliday, H. L. (2006) HOX genes: seductive science, mysterious mechanisms. Ulster Medical Journal, 75, 2331.Google Scholar
Plavicki, J. S., Squirrell, J. M., Eliceiri, K. W. and Boekhoff-Falka, G. (2016) Expression of the Drosophila homeobox gene, Distal-less supports an ancestral role in neural development. Developmental Dynamics, 245, 8795.Google Scholar
Waddington, C. H. (1957) The Strategy of the Genes. Allen & Unwin, London.Google Scholar
Adams, K. L. and Wendel, J. F. (2006) Polyploidy and genome evolution in plants. Current Opinion in Plant Biology, 8, 135141.Google Scholar
Endler, J. A. (1977) Geographic Variation, Speciation and Clines. (MPB-10), Vol 10. Princeton University Press, Princeton, NJ.Google Scholar
Mayr, E. (1963) Animal Species and Evolution. Harvard University Press, Cambridge, MA.Google Scholar
Schliewen, U. K., Tautz, D. and Paabo, S. (1994) Sympatric speciation suggested by monophyly of crater lake cichlids. Nature, 368(6472), 629632.Google Scholar
Sturmbauer, C. and Meyer, A. (1992) Genetic divergence, speciation and morphological stasis in a lineage of African cichlid fishes. Nature, 358, 578581.CrossRefGoogle Scholar
Templeton, A. R. (1989) The meaning of species and speciation: a genetic perspective. In: Otte, D. and Endler, J. A. (eds) Speciation and Its Consequences. Sinauer, Sunderland, MA, pp. 327.Google Scholar
Trewavas, E., Green, J. and Corbet, S. A. (1972) Ecological studies on crater lakes in West Cameroon Fishes of Barombi Mbo. Journal of Zoology, 167, 4195.Google Scholar
Zachos, F. E. (2016) Species Concepts in Biology: Historical Development, Theoretical Foundations and Practical Relevance. Springer Verlag. Switzerland.CrossRefGoogle Scholar
Crowson, R. A. (1970) Classification and Biology, Atherton, New York.Google Scholar
Dupuis, C. (1984) Willi Hennig's impact on taxonomic thought. Annual Review of Ecology and Systematics, 15, 124.Google Scholar
Margulis, L. and Schwartz, K. V. (1982) Five Kingdoms: An Illustrated Guide to the Phyla of Life on Earth. W. H. Freeman and Company, San Francisco.Google Scholar
Marples, N. M., Brakefield, P. M. and Cowie, R. J. (2008) Differences between the 7-spot and 2-spot ladybird beetles (Coccinellidae) in their toxic effects on a bird predator. Ecological Entomology, 14(1), 7984.CrossRefGoogle Scholar
Martin, A., Wiggs, C. L., Ungerleider, L. G. and Haxby, J. V. (1996) Neural correlates of category-specific knowledge. Nature, 379, 649652.CrossRefGoogle ScholarPubMed
Mora, C., Tittensor, D. P., Adl, S., Simpson, A. G. B. and Worm, B. (2011) How many species are there on Earth and in the ocean? PLoS Biology. Published 23 August 2011. http://dx.doi.org/10.1371/journal.pbio.1001127Google Scholar
Press, G. (2013) A very short history of big data. Forbes/Tech. www.forbes.com/sites/gilpress/2013/05/09/a-very-short-history-of-big-data/#7cc9ffbd55daGoogle Scholar
Simpson, G. (1961) Principles of Animal Taxonomy. Columbia University Press, New York.Google Scholar
Yoon, C. K. (2009) Naming Nature. Norton, New York.Google Scholar
Cairns-Smith, A. G. (1990) Seven Clues to the Origin of Life. Cambridge University Press, Cambridge, UK (Canto reprint of the original 1986 edition).Google Scholar
Conway Morris, S. (1998) The Crucible of Creation: The Burgess Shale and the Rise of Animals. Oxford University Press, Oxford.Google Scholar
Fox, S. W. and Dose, K. (1977) Molecular Evolution and the Origin of Life (revised ed.). Marcel Dekker, New York.Google Scholar
Gilbert, W. (1986) Origin of life: The RNA world. Nature, 319, 618.Google Scholar
Gonez, P. and Gerrienne, P. (2010) A new definition and a lectotypification of the genus Cooksonia Lang 1937. International Journal of Plant Sciences, 171, 199215.Google Scholar
King, N. (2004) The unicellular ancestry of animal development. Developmental Cell, 7, 313325.Google Scholar
Longstaff, A. (2015) Astrobiology, An Introduction. CRC Press, London.Google Scholar
Margulis, L. and Schwartz, K. (1982) Five Kingdoms: Illustrated Guide to the Phyla of Life on Earth. Freeman and Co, San Francisco.Google Scholar
Miller, S. L. and Urey, H. C. (1959) Organic compound synthesis on the primitive Earth. Science, 130, 528529.CrossRefGoogle ScholarPubMed
Tudge, C. (2000) The Variety of Life. Oxford University Press, Oxford.Google Scholar
Crisp, A. Boschetti, C., Perry, M. et al. (2015) Expression of multiple horizontally acquired genes is a hallmark of both vertebrate and invertebrate genomes. Genome Biology, 16, 50.Google Scholar
Hartl, D. L. and Jones, E. W. (2009) Genetics: Analysis of Genes and Genomes, 7th ed. Jones and Bartlett, Sudbury, MA.Google Scholar
Lesk, A. M. (2007) Introduction to Genomics. Oxford University Press, Oxford.Google Scholar
Mulkidjanian, A. Y., Koonin, E. V., Makarova, K. S. et al. (2006) The cyanobacterial genome core and the origin of photosynthesis. PNAS, 103, 1312613131.Google Scholar
Ridley, M. (2003) Evolution, 3rd ed. John Wiley & Sons, Cambridge, MA.Google Scholar
Shih, , et al. (2013) Improving the coverage of the cyanobacterial phylum using diversity-driven genome sequencing. PNAS, 110(3), 10531058.Google Scholar
Sibley, C. G., Comstock, J. A. and Ahlquist, J. E. (1990) DNA hybridization evidence of hominoid phylogeny: a reanalysis of the data. Journal of Molecular Evolution, 30, 202236.Google Scholar
Stearns, S. and Hoekstra, R. (2000) Evolution: An Introduction. Oxford University Press, Oxford.Google Scholar
Zhang, G. et al. (2014) Comparative genomic data of the Avian Phylogenomics Project. GigaScience, 3.Google Scholar
Cheng, Z. et al. (2005) A genome-wide comparison of recent chimpanzee and human segmental duplications. Nature, 437, 8893.Google Scholar
Courtiol, A., Pettay, J., Jokela, M., Rotkirch, A. and Lummaa, V. (2012) Natural and sexual selection in a monogamous historical human population. Proceedings of the National Academy of Sciences USA, 109(21), 80448049.Google Scholar
Darwin, C. R. (1871) The Descent of Man and Selection in Relation to Sex. John Murray, London.Google Scholar
Darwin, C. R. (1872) The Expression of the Emotions in Man and Animals. John Murray, London.Google Scholar
Dawkins, R. (2004) The Ancestor’s Tale. Weidenfeld and Nicolson, London.Google Scholar
McHenry, H. (1992) Body size proportions in early hominids. American Journal of Physical Anthropology, 87, 407431.Google Scholar
Smithsonian Institute (2015) The human family tree. http://humanorigins.si.edu/evidence/human-family-tree (accessed 15 September 2016).Google Scholar
Tudge, C. (2000) The Variety of Life. Oxford University Press, Oxford.Google Scholar
White, T. D, Suwa, G. and Asfaw, B. (1994) Nature, 371, 306312.Google Scholar
Cuvier, B. G. (1829) Essays on the Theory of the Earth. 5th ed. Blackwood, Edinburgh and Cadell, London.Google Scholar
Dawkins, R. (2003) A Devil’s Chaplain. Weidenfeld and Nicolson, London.Google Scholar
Dixon, et al. (2015) Genomic determinants of coral heat tolerance across latitudes. Science, 348, 1460–1462.Google Scholar
Fortey, R. (2011) Survivors, the Animals and Plants That Time Has Left Behind. Harper Press, London.Google Scholar
Gould, S. J. (2002) The Structure of Evolutionary Theory. Harvard University Press, Cambridge, MA.Google Scholar
Law, R. (1979) Optimal life histories under age-specific predation. American Naturalist, 114, 399417.Google Scholar
Rohde, R. A. and Muller, R. A. (2005) Cycles in fossil diversity. Nature, 434, 209–210.Google Scholar
Ruse, M. (1996) Monad to Man: The Concept of Progress in Evolutionary Biology. Harvard University Press, Cambridge, MA.CrossRefGoogle Scholar
Aescht, E. et al. (1999) Welträtsel und Lebenswunder, Ernst Haeckel - Werk, Wirkung und Folgen, Kataloge des Oberösterreichischen Landesmuseums - Neue Folge.Google Scholar
Chambers, R. (First published 1844) Vestiges of the Natural History of Creation. HardPress Publishing, London.Google Scholar
Dawkins, R. (1976) The Selfish Gene. Oxford University Press, Oxford.Google Scholar
Dawkins, R. (1982) The Extended Phenotype. Oxford University Press, Oxford.Google Scholar
Fara, P. (2009) Science: A Four Thousand Year History. Oxford University Press, Oxford.Google Scholar
Ipsos (2011) Ipsos Global @dvisory: Supreme Being(s), the Afterlife and Evolution. www.ipsos.com/en-us/news-polls/ipsos-global-dvisory-supreme-beings-afterlife-and-evolution (accessed 15 September 2016).Google Scholar
Preston, J. L., Ritter, R. S. and Hepler, J. (2013) Neuroscience and the soul: competing explanations for the human experience. Cognition, 127, 3137.Google Scholar
Rose, S. (2005) Lifelines, Life beyond the Gene. Vintage, London.Google Scholar
Wetherington, R. K. (2012) Readings in the History of Evolutionary Theory. Oxford University Press, New York.Google Scholar

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  • References
  • Mike Cassidy, Durham University
  • Book: Biological Evolution
  • Online publication: 06 November 2020
  • Chapter DOI: https://doi.org/10.1017/9781139016018.014
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  • References
  • Mike Cassidy, Durham University
  • Book: Biological Evolution
  • Online publication: 06 November 2020
  • Chapter DOI: https://doi.org/10.1017/9781139016018.014
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Mike Cassidy, Durham University
  • Book: Biological Evolution
  • Online publication: 06 November 2020
  • Chapter DOI: https://doi.org/10.1017/9781139016018.014
Available formats
×