This page examines the scientific responses to Michael Behe's arguments for Intelligent Design.
"If it could be demonstrated that any complex organ existed, which could not possibly have been formed by numerous, successive, slight modifications, my theory would absolutely break down. But I can find no such case."
Charles Darwin, On the Origin of Species (1859)
Irreducible Complexity
Behe's central argument revolves around the concept of "irreducible complexity":
"An irreducibly complex system cannot be produced directly (that is, by continuously improving the initial function, which continues to work by the same mechanism) by slight, successive modifications of a precursor system, because any precursor to an irreducibly complex system that is missing a part is by definition nonfunctional."
Michael Behe, Darwin's Black Box (1996)
Evolutionary biologists identify two main scientific responses to this concept:
Many "irreducibly complex" systems have evolutionary pathways:
The eye:Nilsson and Pelger (1994) demonstrated the potential evolutionary pathway from a light-sensitive patch to a complex eye through gradual, incremental changes.
The bacterial flagellum:Pallen and Matzke (2006) revealed structural similarities between flagellar components and the Type III Secretion System, indicating a plausible evolutionary trajectory.
The blood clotting cascade:Doolittle (2009) elucidated how the vertebrate clotting system may have evolved from simpler invertebrate systems via gene duplication and subsequent modification.
The immune system:Flajnik and Kasahara (2010) proposed a model for the evolution of the adaptive immune system from innate immunity through a series of incremental, advantageous modifications.
Parts often evolve for one function and are repurposed later (co-option):
Feathers:Terrill and Shultz (2023) describe how feathers initially evolved for thermoregulation before being co-opted for flight in birds.
Swim bladder:Daniels et al. (2004) explain how the swim bladder evolved from lungs in fish and was later repurposed for buoyancy control.
Crystallins:Swafford and Oakley (2019) demonstrate how crystallin proteins, originally used in stress response, were later co-opted for lens formation in eyes.
Antifreeze proteins:Nath et al. (2013) show how antifreeze proteins evolved from digestive enzymes in Arctic fish and were repurposed for freeze resistance.
The Bacterial Flagellum
Behe presents the bacterial flagellum as a prime example of irreducible complexity:
"The bacterial flagellum, in addition to the proteins already discussed, requires about forty other proteins for function. With the additional complexity of the forty other proteins, the irreducible complexity of the system increases dramatically: if any of those proteins are missing, the flagellum does not function."
Michael Behe, Darwin's Black Box (1996)
Behe's claim is based on the concept that the bacterial flagellum is irreducibly complex. However, evolutionary biologists propose that the bacterial flagellum likely evolved from simpler systems:
Type III Secretion System:Pallen and Matzke (2006) revealed structural similarities between flagellar components and the Type III Secretion System, indicating a plausible evolutionary trajectory.
Ion channels:Liu and Ochman (2007) identified simpler functional units that could have been precursors to the flagellum.
Moreover, the evolution of the flagellum can be explained through well-understood evolutionary processes:
Gene duplication and divergence:Pallen and Matzke (2006) identified many flagellar proteins as paralogs, indicating their origin through gene duplication events.
Co-option:Mulkidjanian et al. (2009) demonstrated how parts of the flagellum, such as the bacterial flagellar motor, likely evolved from simpler structures like ion channels.
Scaffolding proteins:Pallen and Matzke (2006) proposed that some proteins may have initially functioned as structural supports before being incorporated into the functional flagellum.
These findings, according to evolutionary biologists, indicate that the bacterial flagellum evolved through a series of incremental changes via gene duplication, co-option, and modification of existing structures.
"The very existence of the Type III Secretory System shows that the bacterial flagellum is not irreducibly complex. It also demonstrates, more generally, that the claim of 'irreducible complexity' is scientifically meaningless, constructed as it is upon the flimsiest of foundations - the assertion that because science has not yet found selectable functions for the components of a certain structure, it never will."
Behe claims that the blood clotting cascade is irreducibly complex:
"The blood-clotting cascade is a paradigm of the staggering complexity that underlies even apparently simple bodily processes. Biochemistry has revealed a system of the highest complexity, involving over a dozen interdependent protein parts... The absence of any one of the components causes the system to fail, and blood does not clot at the proper time or at the proper place."
Michael Behe, Darwin's Black Box (1996)
Scientific research presents evidence that evolutionary biologists use to address Behe's claim of irreducible complexity:
Simpler Systems: Primitive clotting systems exist in invertebrates, demonstrating functional intermediates:
Hanington and Zhang (2010) found that Amphioxus has a primitive clotting system using fibrinogen-like proteins.
Bergner et al. (1997) showed that horseshoe crabs use a single protein (coagulogen) for clotting.
Hall et al. (1999) explained that crayfish use a two-step clotting process involving transglutaminase.
Bidla et al. (2005) found that fruit flies have a simplified clotting system using phenoloxidase.
Redundancy: The vertebrate clotting system contains redundant pathways:
Gene Duplication: Doolittle's research demonstrates how specific gene duplication events led to the diversification of clotting factors from a common ancestral gene:
Doolittle (2009) demonstrates how gene duplication events led to the diversification of clotting factors from a common ancestral gene.
The genes for factors IX and X likely arose from duplication of a single ancestral gene.
Prothrombin and factor X share structural similarities, indicating a common origin.
Factors V and VIII, which serve as cofactors in the cascade, also appear to have evolved through gene duplication.
These findings suggest an evolutionary pathway for the blood clotting cascade, with simpler systems present in other organisms and evidence of gene duplication leading to increased complexity.
"The availability of whole-genome sequences for a variety of vertebrates is making it possible to reconstruct the step-by-step evolution of complex phenomena such as blood coagulation, an event that in mammals involves the interplay of more than two dozen genetically encoded factors."
The concept of irreducible complexity, as presented by Michael Behe in "Darwin's Black Box," faced significant scrutiny in the landmark 2005 court case Kitzmiller v. Dover Area School District.
Background
The Dover Area School District attempted to teach Intelligent Design (ID) in science classrooms as an alternative to evolution. Behe was an expert witness for the defense, arguing for the validity of ID.
Behe's Testimony
Behe testified that the bacterial flagellum, with its intricate motor-like structure, represents an example of irreducible complexity, lacking obvious evolutionary precursors.
Behe argued that the blood clotting cascade, with its multiple interdependent factors, represents irreducible complexity.
He testified that these systems would not function if any part were removed, suggesting they could not have evolved gradually.
Behe's Cross-Examination
Behe acknowledged that his definition of science, if applied consistently, would also include astrology as a scientific theory.
Behe conceded that there were no peer-reviewed scientific articles supporting his concept of irreducible complexity.
He admitted to not having read much of the scientific literature on the evolution of the immune system, despite claiming it was irreducibly complex.
Scientific Rebuttal
Biologist Kenneth Miller demonstrated how the bacterial flagellum could have evolved from simpler precursor systems:
He showed that the Type III Secretion System (T3SS) shares many proteins with the flagellum, suggesting a possible evolutionary pathway.
Miller explained that the T3SS functions as a molecular syringe in some bacteria, demonstrating a useful intermediate structure.
Regarding the blood clotting cascade:
Evidence was presented showing simpler clotting systems in other organisms, such as the horseshoe crab's single-protein system.
The court heard about gene duplication events that could explain the evolution of multiple clotting factors.
The court was presented with numerous peer-reviewed studies on the evolution of complex systems that Behe claimed were irreducibly complex:
Studies on the evolution of the immune system, which Behe had admitted to not having thoroughly reviewed.
Research demonstrating the step-by-step evolution of biochemical pathways through gene duplication and modification.
Ruling
Judge John E. Jones III issued a comprehensive 139-page decision, concluding that:
Intelligent Design lacks the characteristics of science and could not be taught as science in public schools.
Teaching ID in public school science classes raises legal issues under the Establishment Clause of the First Amendment.
The concept of irreducible complexity does not constitute a testable scientific theory.
Scientific evidence and peer-reviewed research presented during the trial indicated alternative explanations for the systems Behe cited.
Evidence suggested the Dover School Board's ID policy involved religious considerations alongside or instead of scientific ones.
The judge's decision was emphatic in distinguishing between science and non-science, and noted concerns about the board's stated motivations.
"The court concluded that creation science 'is simply not science' because it depends upon 'supernatural intervention,' which cannot be explained by natural causes, or be proven through empirical investigation, and is therefore neither testable nor falsifiable."
Beyond the scientific debate, Behe's concept of irreducible complexity and the broader Intelligent Design movement raise philosophical questions:
God of the Gaps: Critics argue that Intelligent Design functions as a "God of the gaps" argument, invoking divine design to explain phenomena where natural mechanisms are not yet understood. Historical examples include Isaac Newton's use of intelligent design to explain planetary motion:
"This most elegant system of the sun, planets, and comets could not have arisen without the design and dominion of an intelligent and powerful being. And if the fixed stars are the centers of similar systems, they will all be constructed according to a similar design and subject to the dominion of the One ... And so that the system of the fixed stars will not fall upon one another as a result of their gravity, he has placed them at immense distances from one another."
Isaac Newton, Principia Mathematica (1687)
Testability: ID proponents do not specify testable mechanisms for how design is implemented. The identity, methods, and limitations of the proposed designer are undefined. ID theory does not specify what mechanisms are used or how they compare with mechanisms proposed by evolutionary theory.
"Creationism, intelligent design, and other claims of supernatural intervention in the origin of life or of species are not science because they are not testable by the methods of science. These claims subordinate observed data to statements based on authority, revelation, or religious belief."