Wonderful Life: The Burgess Shale and the Nature of History is a 1989 book on the evolution of Cambrian fauna by Harvard paleontologist Stephen Jay Gould. The volume made The New York Times Best Seller list,[1] was the 1991 winner of the Royal Society's Rhone-Poulenc Prize, the American Historical Association's Forkosch Award, and was a 1991 finalist for the Pulitzer Prize. Pulitzer juror Joyce Carol Oates later revealed the non-fiction jury had unanimously recommended the book for the prize, but the selection was rejected by the Pulitzer board.[2] Gould described his later book Full House (1996) as a companion volume to Wonderful Life.[3]

Wonderful Life
Cover of the first edition
AuthorStephen Jay Gould
LanguageEnglish
SubjectsEvolutionary history of life
Burgess Shale
PublisherW. W. Norton & Co.
Publication date
1989
Publication placeUnited States
Media typePrint (Hardcover and Paperback)
Pages347 pp.
ISBN0-393-02705-8
OCLC18983518
560/.9 19
LC ClassQE770 .G67 1989
Preceded byAn Urchin in the Storm 
Followed byBully for Brontosaurus 

Summary

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Charles Doolittle Walcott (1850-1927), who discovered the Burgess Shale, with his children Sidney Stevens Walcott (1892-1977), and Helen Breese Walcott (1894-1965).

Gould's thesis in Wonderful Life was that contingency plays a major role in the evolutionary history of life. He based his argument on the extraordinarily well preserved fossils of the Burgess Shale, a rich fossil-bearing deposit in Canada's Rocky Mountains, dating 505 million years ago.[4] Gould argues that during this period just after the Cambrian explosion there was a greater disparity of anatomical body plans (phyla) than exist today. However most of these phyla left no modern descendants. All of the Burgess animals, Gould argues, were exquisitely adapted to their environment, and there exists little evidence that the survivors were any better adapted than their extinct contemporaries.[5]

Gould proposed that given a chance to "rewind the tape of life" and let it play again, we might find ourselves living in a world populated by descendants of Hallucigenia rather than Pikaia (the ancestor of all vertebrates, or at least a close relative thereof). Gould stressed that his argument was not based on randomness but rather contingency, a process by which historical outcomes arise from an unpredictable sequence of antecedent states, where any change in the sequence alters the final result.[6] Because fitness for existing conditions does not guarantee long-term survival – particularly when conditions change catastrophically – the survival of many species depends more on luck than conventional features of anatomical superiority.[7] Gould maintains that, "traits that enhance survival during an extinction do so in ways that are incidental and unrelated to the causes of their evolution in the first place."[8] Gould earlier coined the term exaptation to describe fortuitously beneficial traits, which are adaptive but arise for reasons other than incremental natural selection.[9]

Gould regarded Opabinia – an odd creature with five eyes and frontal nozzle – as so important to understanding the Cambrian explosion that he wanted to call his book Homage to Opabinia.[10] Gould wrote:

I believe that Whittington's reconstruction of Opabinia in 1975 will stand as one of the great documents in the history of human knowledge. How many other empirical studies have led directly on to a fundamentally revised view about the history of life? We are awestruck by Tyrannosaurus; we marvel at the feathers of Archaeopteryx; we revel in every scrap of fossil human bone from Africa. But none of these has taught us anywhere near so much about the nature of evolution as a little two-inch Cambrian oddball invertebrate named Opabinia.[11]

Reception

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Modern artistic rendering of Hallucigenia.

Wonderful Life quickly climbed the national bestseller lists within weeks of publication.[12] It stimulated wide discussion regarding the nature of progress and contingency in evolution.

Gould's thesis was that if the history of life were replayed over again, human-level intelligence would prove unlikely to ever arise again. The evolutionary biologist Ernst Mayr argued that Gould, "made such contingencies a major theme in Wonderful Life, and I have come to the conclusion that here he may be largely right."[13] In his review, the biologist Richard Dawkins wrote that, "The view that he is attacking – that evolution marches inexorably towards a pinnacle such as man – has not been believed for 50 years."[14]

Biologist John Maynard Smith wrote, "I agree with Gould that evolution is not in general predictable. ... Although I agree with Gould about contingency, I find the problem of progress harder. ... I do think that progress has happened, although I find it hard to define precisely what I mean."[15] Philosopher Michael Ruse wrote that, "Wonderful Life was the best book written by the late Stephen Jay Gould, paleontologist and popular science writer. It is ... a thrilling story that Gould tells in a way that no one else could equal."[16]

Some of the anatomical reconstructions cited by Gould were soon challenged as being incorrect, most notably Simon Conway Morris' 1977 reconstruction of Hallucigenia.[17] Conway Morris' reconstruction was, "so peculiar, so hard to imagine as an efficiently working beast" Gould speculated that Hallucigenia might be "a complex appendage of a larger creature, still undiscovered."[18] It was later brought to light by paleontologists Lars Ramskold[19] and Hou Xianguang[20] that Conway Morris' reconstruction was inverted upside down, and likely belonged to the modern phylum Onychophora.[21]

The ultimate theme of the book is still being debated among evolutionary biologists today.[17]

See also

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References

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  1. ^ McDowell, Edwin (1989). "Book Notes." The New York Times Nov. 8.
  2. ^ Joyce Carol Oates [@JoyceCarolOates] (March 29, 2024). "this has happened several times--no award for fiction or drama because the judges' decisions were rejected by the Columbia committee. when I was a juror for the Pulitzer prize in non-fiction all three jurors chose Stephen Jay Gould's "Wonderful Life"--refused by the committee" (Tweet) – via Twitter.
  3. ^ Gould, S. J. (1996). Full House: The Spread of Excellence From Plato to Darwin. New York: Harmony Books, p. 4.
  4. ^ Ward, Peter and Joe Kirschvink (2015). A New History of Life. New York: Bloomsbury Publishing, p. 125.
  5. ^ Gould, S. J. (1989) Wonderful Life. New York: Norton, p. 236.
  6. ^ Gould, S. J. (1989). Wonderful Life. p. 283.
  7. ^ Gould, S. J. (2004). "The Evolution of Life On Earth." Archived 2011-11-20 at the Wayback Machine Scientific American 290 (March): 97-98, 100.
  8. ^ Gould, S. J. (1989) Wonderful Life. p. 307.
  9. ^ Gould, S. J.; Vrba, E. (1982), "Exaptation—a missing term in the science of form" (PDF), Paleobiology, 8 (1): 4–15, Bibcode:1982Pbio....8....4G, doi:10.1017/S0094837300004310, S2CID 86436132.
  10. ^ Knoll, A.H. (2004). "Cambrian Redux". The First Three Billion Years of Evolution on Earth. Princeton University Press. p. 192. ISBN 978-0-691-12029-4. Retrieved 2009-04-22.
  11. ^ Gould, S. J. (1989). Wonderful Life. p. 136.
  12. ^ Mehren, Elizabeth (1989). "The Cosmic Lottery." Los Angeles Times Nov. 28, pp. E1, E6.
  13. ^ Mayr, Ernst (2001). What Evolution Is. New York: Basic Books, p. 229.
  14. ^ Dawkins, Richard (1990). "Hallucigenia, Wiwaxia and Friends." Sunday Telegraph Feb. 25; reprinted in A Devil's Chaplain. Boston: Houghton Mifflin, pp. 203-205. (ISBN 978-0-7538-1750-6).
  15. ^ Maynard Smith, John (1992). "Taking a Chance on Evolution." New York Review Books 39 (May 14): 34-36.
  16. ^ Ruse, Michael (2004). "Are we here by chance?" The Globe and Mail, Jan. 17.
  17. ^ a b Briggs, D. E. G.; Fortey, R. A. (2005). "Wonderful strife: systematics, stem groups, and the phylogenetic signal of the Cambrian radiation" (PDF). Paleobiology. 31 (2 (Supplement)): 94–112. doi:10.1666/0094-8373(2005)031[0094:WSSSGA]2.0.CO;2. S2CID 44066226. Archived from the original (PDF) on 2016-08-12. Retrieved 2016-12-04.
  18. ^ Gould, S. J. (1989). Wonderful Life. New York: W. W. Norton & Co., p. 157.
  19. ^ Ramskold, L. (1992). "The second leg row of Hallucigenia discovered." Lethaia 25 (2): 221-224
  20. ^ Ramsköld L. and Hou Xianguang (1991). "New early Cambrian animal and onychophoran affinities of enigmatic metazoans." Nature 351 (May 16): 225-228.
  21. ^ Gould, S. J. (1992). "The reversal of Hallucigenia." Natural History 101 (January): 12-20.
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