Page 24 of Full House


  James, B. 1986. The Bill James Historical Baseball Abstract. New York: Villard Books.

  Kaiser, J. 1995. Can deep bacteria live on nothing but rocks and water? Science, 270:377.

  Knight, C. R. 1942. Parade of life through the ages. National Geographic, 81:2 (February), 141-84.

  Laqueur, T. 1990. Making Sex. Cambridge, Mass.: Harvard University Press.

  L’Haridon, S., A.-L. Reysenbach, P. Glénat, D. Prieur, and C. Jeanthon. 1995. Hot subterranean biosphere in a continental oil reservoir. Nature, 377:223-24.

  MacFadden, B. J. 1984. Systematics and phylogeny of Hipparion, Neohipparion, Nannippus, and Cormohipparion (Mammalia, Equidae) from the Miocene and Pliocene of the New World. Bulletin of the American Museum of Natural History 179:1-196.

  MacFadden, B. J. 1986. Fossil horses from "Eohippus" (Hyracotherium) to Equus: Scaling, Cope’s law, and the evolution of body size. Paleobiology, 12:4, 355-69.

  MacFadden, B. J., and R. Hulbert, Jr. 1988. Explosive speciation at the base of the adaptive radiation of Miocene grazing horses. Nature, 336:6198, 466-68.

  MacFadden, B. J., and J. S. Waldrop. 1980. Nannippus phlegon (Mammalia, Equidae) from the Pliocene (Blancan) of Florida. Bulletin of the Florida State Museum Biological Sciences, 25:1, 1-37.

  Margulis, L., and D. Sagan. 1986. Microcosmos. New York: Simon and Schuster.

  Matthew, W. D. 1903. The Evolution of the Horse. American Museum of Natural History pamphlet.

  Matthew, W. D. 1926. The evolution of the horse: A record and its interpretation. Quarterly Review of Biology, 1(2):139-85.

  Mayr, E. 1963. Animal Species and Evolution. Cambridge, Mass.: Belknap Press of Harvard University Press.

  McShea, D. W. 1992. A metric for the study of evolutionary trends in the complexity of serial structures. Biological Journal of the Linnean Society of London, 45:39-55.

  McShea, D. W. 1993. Evolutionary change in the morphological complexity of the mammalian vertebral column. Evolution, 47:730-40.

  McShea, D. W. 1994. Mechanisms of large-scale evolutionary trends. Evolution, 48:1747-63.

  McShea, D. W. 1996. Metazoan complexity and evolution: is there a trend? Evolution, in press.

  McShea, D. W., B. Hallgrimsson, and P. D. Gingerich. 1995. Testing for evolutionary trends in non-hierarchical developmental complexity. Abstracts, Annual Meeting of the Geological Society of America, New Orleans, A53-A54.

  Nealson, K. H. 1991. Luminescent bacteria as symbiotic with entomopathogenic nematodes. In L. Margulis and R. Fester, eds., Symbiosis as a Source of Evolutionary Innovation, 205-18. Cambridge, Mass.: MIT Press.

  Oliwenstein, L. 1993. Onward and upward? Discover, June, 22-23.

  Parkes, J., and J. Maxwell. 1993. Some like it hot (and oily). Nature, 365:694-95.

  Parkes, R. J., B. A. Cragg, S. J. Bale, J. M. Getliff, K. Goodman, P. A. Rochelle, J. C. Fry, A. J. Weightman, and S. M. Harvey. 1994. Deep bacterial biosphere in Pacific Ocean sediments. Nature, 371:410-13.

  Peck, M. Scott. 1978. The Road Less Traveled. New York: Simon & Schuster.

  Prothero, D. R., E. Manning, and C. B. Hanson. 1986. The phylogeny of the Rhinocerotoidea (Mammalia, Perissodactyla). Zoological Journal of the Linnean Society, 87:341-66.

  Prothero, D. R., and N. Shubin. 1989. The evolution of Oligocene horses. In: D. R. Prothero and R. M. Schoch, eds., The Evolution of Perissodactyls, 142-75. Oxford: Oxford University Press.

  Prothero, D. R., C. Guérin, and E. Manning. 1989. The history of the Rhinocerotoidea. In D. R. Prothero and R. M. Schoch, eds., The Evolution of Perissodactyls, 321-40. New York: Oxford University Press.

  Prothero, D. R., and R. M. Schoch. 1989. Origin and evolution of the Perissodactyla: summary and synthesis. In D. R. Prothero and R. M. Schoch, eds., The Evolution of Perissodactyls, 504-37. New York: Oxford University Press.

  Richards, R. J. 1992. The Meaning of Evolution. Chicago: University of Chicago Press.

  Rudwick, M. J. S. 1992. Scenes from Deep Time. Chicago: University of Chicago Press.

  Sagan, D., and L. Margulis. 1988. Garden of Microbial Delights. New York: Harcourt Brace Jovanovich.

  Simpson, G. G. 1951. Horses. Oxford: Oxford University Press.

  Sober, E. 1984. The Nature of Selection. Cambridge, Mass.: MIT Press.

  Stanley, S. M. 1973. An explanation for Cope’s rule. Evolution, 27:1-26.

  Stauffer, R. C. (ed.). 1975. Charles Darwin’s Natural Selection. Cambridge, UK: Cambridge University Press.

  Stetter, K. O., R. Huber, E. Blöchl, M. Kurr, R. D. Eden, M. Fielder, H. Cash, and I. Vance. 1993. Hyperthermophilic Archaea are thriving in deep North Sea and Alaskan oil reservoirs. Nature, 365:743-45.

  Stevens, T. O., and J. P. McKinley. 1995. Lithautotrophic microbial ecosystems in deep basalt aquifers. Science, 270:450-54.

  Szewzyk, R., M. Szewzyk, and T.-A. Stenström. 1994. Thermophilic, anaerobic bacteria isolated from a deep borehole in granite in Sweden. Proceedings of the National Academy of Sciences USA, 91:1810-13.

  Tax, Sol (ed.). 1960. Evolution After Darwin, 3 volumes. Chicago: University of Chicago Press.

  Thomas, R. D. K. 1993. Order and disorder in the evolution of biological complexity. Draft manuscript.

  Vetter, R. D. 1991. Symbiosis and the evolution of novel trophic strategies: thiotrophic organisms at hydrothermal vents. In L. Margulis and R. Fester, eds., Symbiosis as a Source of Evolutionary Innovation. Cambridge, Mass.: MIT Press, 219-45.

  Vrba, E. S. 1980. Evolution, species and fossils: how does life evolve? South African Journal of Science, 76:61-84.

  Vrba, E. S., and N. Eldredge. 1984. Individuals, hierarchies and processes: towards a more complete evolutionary theory. Paleobiology, 10:146-71.

  Walsby, A. E. 1983. Bacteria that grow at 250°C. Nature, 303:381.

  Whipp, B. J., and S. A. Ward. 1992. Will women soon outrun men? Nature, 335:25.

  Williams, G. C. 1966. Adaptation and Natural Selection. Princeton, N.J.: Princeton University Press.

  Williams, T., and J. Underwood. 1986. The Science of Hitting. New York: Simon and Schuster.

  Wilson, E. O. 1992. The Diversity of Life. Cambridge, Mass.: Harvard University Press.

  Woese, C. R. 1994. Universal phylogenetic tree in rooted form. Microbiological Reviews, 58:1-9.

  Yoon, C. K. 1993. Biologists deny life gets more complex. The New York Times, 30 March, C1.

  1 . One basically sophistic argument against progress holds that the word itself is too vague or subjective, and that the concept should be dropped for lack of rigor in description. This argument is a cop-out, and I will certainly not invoke such a lame defense in this book. Progress is too vague to stand by itself, but a variety of operational surrogates have been proposed—ranging from something as precise and measurable as brain size to more general, but still definable, notions as anatomical complexity (usually construed as number of parts and their degree of differentiation, assessed in various ways). I shall argue that progress as the primary thrust of life’s history cannot be defended even for these operational surrogates.

  2 . Reification is an unfamiliar word, but this term describes the fallacy so well that I hasten to use (and explain) it. As coined by philosophers and social scientists in the mid-nineteenth century, reification refers to "the mental conversion of a person or abstract concept into a thing" (Oxford English Dictionary). The word comes from the Latin res, meaning "thing" (a republic, or res publica, is the people’s thing). When committing the error discussed in this book, we abstract the variation within a system into some measure of central tendency, like the mean value—and then make the mistake of reifying this abstraction and interpreting the mean as a concrete "thing"; we then compound our error by assuming that changes in the mean must, ipso facto, be read as an entity moving somewhere. Or, in another version of the same fallacy, we focus on extremes in variation and falsely reify these values as separate things, rather than treating them as an inextricable part of the entire system’s variation.

  3 . I do rec
ognize, of course, that these claims also play into the Genesis Myth of former Elysian fields versus modern palaces to Mammon—but my argument hinges on distinguishing the pure Genesis Myth that batters have gotten absolutely worse from a more reasonable claim that players are just as good (or better), but that batting has become relatively harder for some reason.

  4 . All bets are off when fundamentally new equipment or procedures enter the field, as in the fiberglass pole, or (God forbid) the aluminum bat, which (we may hope and pray) will never darken the doorstep of major league dugouts. Such innovations will produce sudden blips in curves of improvement. In fact, such innovations are usually better treated statistically as the beginning points of new curves.

  5 . The recent disparity between the two leagues records, in large part, the introduction of the "designated hitter" to the American League alone—a permanent "pinch hitter" for the pitcher. His substitution for the pitcher doesn’t affect the decadal average per se, because I don’t include pitchers in this calculation. But the designated hitter still provokes a small general rise in the American League mean by introducing another good bat into the lineup, whereas the National League retains more relatively poor hitters in the bottom part of the order. Nonetheless, I remain an adamant opponent of the DH rule—the one vital subject in our culture that permits no middle ground. You gotta either love it or hate it!

  6 . I referred to my first method as working "on the cheap" because five-highest and five-lowest represents a quicker and dirtier calculation than the full standard deviation of all players. But I knew that this shortcut would provide a good surrogate for the more accurate standard deviation because standard deviations are particularly sensitive to values farthest from the mean—a consequence of squaring the deviation of each player from the mean at one point in the calculation. Since my quick-and-dirty method relied entirely on values farthest from the mean, I knew that it would correlate closely with the standard deviation.

  7 . These statistics can also be broken down to yield finer patterns that validate the hypothesis. The National League began in 1876, the American in 1901. Since the hypothesis holds that systems equilibrate through time by decelerating decrease in variation, we might predict that, from 1901 to 1930, when the American League was new but the National already in middle age, variation in American League records should decrease more rapidly than comparable measures in the National League. This pattern does indeed emerge, both for standard deviations of batting averages in my calculations, and for the history of differences in best versus worst teams in the data of Chatterjee and Yilmaz.

  8 . In more complex cases involving several entities, the wall might be an "absorbing boundary" that destroys any object hitting it. No matter (so long as enough entities are left to play the game—certainly the case with life’s history). The important point is that an entity can’t penetrate the wall and continue to move in the wall ward direction—whether or not the entity bounces off or gets killed.

  BY THE SAME AUTHOR

  Ontogeny and Phylogeny

  Ever Since Darwin

  The Panda’s Thumb

  The Mismeasure of Man

  Hen’s Teeth and Horse’s Toes

  The Flamingo’s Smile

  An Urchin in the Storm

  Time’s Arrow, Time’s Cycle

  Illuminations (WITH R. W. PURCELL)

  Wonderful Life

  Bully for Brontosaurus

  Finders, Keepers (WITH R. W. PURCELL)

  Eight Little Piggies

  Dinosaur in a Haystack

  Copyright © 1996 by Stephen Jay Gould

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