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1 August 2006 Holistic Darwinism: Synergy, Cybernetics, and the Bioeconomics of Evolution
BRIAN CHARLESWORTH
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Holistic Darwinism: Synergy, Cybernetics, and the Bioeconomics of Evolution. Peter A. Corning. University of Chicago Press, Chicago, 2005. 546 pp. $28.00 (ISBN 0226116166 paper).

Peter Corning is the director of the Institute for the Study of Complex Systems (though it is not clear from its Web site that this organization has any members other than Corning himself). His book is intended to convince the reader that he has developed a new perspective on biological evolution, which overcomes the perceived inadequacies of conventional neo-Darwinism as an explanation for the evolution of biological complexity. Corning's claim is that “an individualistic, gene centered theory seems insufficient to account for the evolution of more complex, multileveled biological systems” (p. 2). In his view, this should be replaced by “Holistic Darwinism,” which he defines as a view of evolution “as a dynamic, multilevel process, in which there is both ‘upward causation’ (from the genes to the phenotype and higher levels of organization) and ‘downward causation’ (phenotypic influences on differential survival and reproduction), and even ‘horizontal causation’ (between organisms)” (p. 2).

Corning regards his “synergy hypothesis” as the core of Holistic Darwinism. He defines synergy as “combined or cooperative effects—literally, the effects produced by things that operate together (parts, elements or wholes)” (pp. 50–51). It can be observed at multiple levels of biological organization, ranging from the cooperative binding of oxygen by the monomers of hemoglobin at one end of the spectrum to the cooperative behavior of social insects at the other. Corning argues that synergy plays a key role in determining the outcome of evolutionary processes. These ideas are elaborated over several hundred pages. There are extensive discussions of human social behavior, economics, and political theory in the second half of the book, subjects on which I am not competent to comment.

Corning's key notion that components of biological systems interact with each other is not exactly novel. For example, the term “epistasis”(mentioned only once in Holistic Darwinism) was introduced very early into genetics to describe the fact that the phenotypic effects of an allele at one locus may be conditional on the allelic state at another locus. Epistasis plays a key role in Sewall Wright's “shifting balance” theory of evolution (not widely accepted by modern evolutionists), and in the Dobzhansky-Muller explanation of the evolution of reproductive isolation by species (which is widely accepted, but not mentioned by Corning). No sensible evolutionist believes that the effects of genes are necessarily independent of each other; the question is, rather, when does this matter, and what phenomena are explained by such interdependences of gene effects? This topic is not discussed by Corning, even though it has been thoroughly studied by evolutionary geneticists in connection with such important topics as the evolution of sex and recombination. Similarly, the problem of explaining altruistic and cooperative behavior was recognized early by Fisher and Haldane (and by Darwin himself), and of course has been a major focus of modern research in behavioral ecology. Corning seems to prefer group-selectionist explanations of cooperation over explanations based on kin or individual selection, but fails to provide a detailed explanation of how these are supposed to work, or to present the relevant biological data in sufficient detail for the reader to make an informed judgment. In fact, his account on page 20 is downright confusing, since he discusses group selection and game theory in the same breath, the latter being a primarily individual-based approach to selection theory. This will not convince people like me, who are unsympathetic to group selection as a significant evolutionary force.

General concepts are useful in science only if they have a precise meaning and help us to understand a wide range of phenomena, natural selection being of course the prime example in biology. Corning's idea of synergy does no more than vaguely describe what is observed in a disparate set of physical and biological systems, and lacks any genuine explanatory power. Except for its invocation of group selection, Holistic Darwinism seems little different from conventional neo-Darwinism, except that it is a lot harder to extract clear meaning from Corning's writings than from those of such lucid exponents of classical neo-Darwinism as the late John Maynard Smith.

Overall, the book reads like a treatise in social science, with a poor grasp of how problems in the natural sciences are approached and solved. Instead of tight verbal or mathematical models that are designed to explain specific phenomena, Corning presents the reader with rambling and repetitive lists of facts and ideas. Theories are backed up by reference to authority, rather than by tests against data. As the quotations suggest, the style of writing is diffuse, and there is an intrinsic vagueness to the concepts that Corning develops. This makes it hard to pin down exactly what is new or valuable in what he has to say. I have seen many new evolutionary paradigms come and go, and it would take something exceptional for me to be convinced by yet another. My impression is that there is little of value here.

BRIAN CHARLESWORTH "Holistic Darwinism: Synergy, Cybernetics, and the Bioeconomics of Evolution," BioScience 56(8), 696-697, (1 August 2006). https://doi.org/10.1641/0006-3568(2006)56[696:HDSCAT]2.0.CO;2
Published: 1 August 2006
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