Publicações Cientificas Revistas por Pares que Apoiam o Design Inteligente

Partilhar

Tweetar

Os críticos ao design inteligente afirmam muitas vezes que os defensores do design não publicam seus trabalhos em literatura científica adequada. Por exemplo, Barbara Forrest, uma professora de filosofia na Southeastern Louisiana University, foi citada no USA Today (25 de Março de 2005) dizendo que os teóricos do design "não publicam porque não eles não têm dados científicos".

Outros críticos têm feito a alegação mais específica, de que os defensores do design não publicam seus trabalhos em revistas científicos revistas por pares - como se tais revistas representassem a única via legitima de publicação científica. Na verdade, os cientistas publicam regularmente os seus trabalhos em revistas científicas, em livros científicos, em antologias científicas e actas de conferências (editadas por seus pares científicos), e em publicações da especialidade. Alguns dos trabalhos mais importantes e inovadores na história da ciência não foram publicados pela primeira vez em artigos de revistas científicas, mas em livros científicos - incluindo o Revolutionibus de Copérnico, o Principia de Newton, e o Origem das Espécies de Darwin (o último dos quais foi publicado numa proeminente publicação da especialidade britânica e não foi revista por pares no sentido moderno do termo). Em qualquer caso, os cientistas que defendem a teoria do design inteligente têm publicado os seus trabalhos numa variedade de publicações técnicas, incluindo em revistas científicas revistas por pares, livros científicos revistos por pares (alguns em editoras universitárias "mainstream"), em publicações da especialidade, em antologias científicas editadas por pares, actas de conferências científicas editadas por pares e em revistas e livros de filosofia da ciência revist(as/os) por pares.

Fornecemos abaixo uma bibliografia comentada de publicações técnicas de vários tipos que apoiam, desenvolvem ou aplicam a teoria do design inteligente. Os artigos estão agrupados de acordo com o tipo de publicação. A primeira secção lista artigos de vários tipos, que são de maior interesse para os leitores, que é então seguida de uma lista completa dos artigos. Os artigos apresentados estão, portanto, listados duas vezes nesta página (uma vez na secção de artigos e novamente abaixo na lista completa).


ARTIGOS:

Meyer, S. C. DNA and the origin of life: Information, specification and explanation, in Darwinism, Design, & Public Education (Michigan State University Press, 2003), Pp. 223-285. (PDF, 1.13MB)

Meyer contends that intelligent design provides a better explanation than competing chemical evolutionary models for the origin of the information present in large bio-macromolecules such as DNA, RNA, and proteins. Meyer shows that the term information as applied to DNA connotes not only improbability or complexity but also specificity of function. He then argues that neither chance nor necessity, nor the combination of the two, can explain the origin of information starting from purely physical-chemical antecedents. Instead, he argues that our knowledge of the causal powers of both natural entities and intelligent agency suggests intelligent design as the best explanation for the origin of the information necessary to build a cell in the first place.

William A. Dembski and Robert J. Marks II, "Conservation of Information in Search: Measuring the Cost of Success," IEEE Transactions on Systems, Man and Cybernetics A, Systems & Humans, Vol. 39 (5):1051-1061 (September, 2009). (PDF, 359KB)

Darwinian evolution is, at its heart, a search algorithm that uses a trial and error process of random mutation and unguided natural selection to find genotypes (i.e. DNA sequences) that lead to phenotypes (i.e. biomolecules and body plans) that have high fitness (i.e. foster survival and reproduction). This peer-reviewed scientific article in the journal IEEE Transactions on Systems, Man and Cybernetics A, Systems & Humans by William Dembski and Robert Marks explains that unless a search starts off with some information about where peaks in a fitness landscape may lie, any search -- including Darwinian search algorithms-- are on average no better than a random search. After assessing various examples of evolutionary searches, Dembski and Marks show that attempts to model Darwinian evolution via computer simulations, such Richard Dawkins famous "METHINKSITISLIKEAWEASEL" example, start off with, as Dembski and Marks put it, "problem-specific information about the search target or the search-space structure." According to the paper, such simulations only reach their evolutionary targets because there is pre-specified "accurate information to guide them," or what they call "active information." The implication, of course, is that some intelligent programmer is required to front-load a search with active information if the search is to successfully find rare functional genetic sequences. They conclude that "Active information is clearly required in even modestly sized searches."

Stephen Meyer, "The Origin of Biological Information and the Higher Taxonomic Categories" Proceedings of the Biological Society of Washington 117 (2004): 213-239.

Meyer argues that competing materialistic models (Neo-Darwinism, Self Organization Models, Punctuated Equilibrium and Structuralism) are not sufficient to account for origin of the information necessary to build novel animal forms present in the Cambrian Explosion. He proposes intelligent design as an alternative explanation for the origin of biological information and the higher taxa.

Lönnig, W.-E. Dynamic genomes, morphological stasis and the origin of irreducible complexity, Dynamical Genetics, Pp. 101-119. (PDF, 2.95MB; HTML)

Biology exhibits numerous invariants -- aspects of the biological world that do not change over time. These include basic genetic processes that have persisted unchanged for more than three-and-a-half billion years and molecular mechanisms of animal ontogenesis that have been constant for more than one billion years. Such invariants, however, are difficult to square with dynamic genomes in light of conventional evolutionary theory. Indeed, Ernst Mayr regarded this as one of the great unsolved problems of biology. In this paper Dr.Wolf-Ekkehard Lönnig, Senior Scientist in the Department of Molecular Plant Genetics at the Max-Planck-Institute for Plant Breeding Research, employs the design-theoretic concepts of irreducible complexity (as developed by Michael Behe) and specified complexity (as developed by William Dembski) to elucidate these invariants, accounting for them in terms of an intelligent design (ID) hypothesis. Lönnig also describes a series of scientific questions that the theory of intelligent design could help elucidate, thus showing the fruitfulness of intelligent design as a guide to further scientific research.

Jonathan Wells, "Do Centrioles Generate a Polar Ejection Force?," Rivista di Biologia/Biology Forum 98 (2005): 37-62.

Most animal cells contain a pair of centrioles, tiny turbine-like organelles oriented at right angles to each other that replicate at every cell division. Yet the function and behavior of centrioles remain mysterious. Since all centrioles appear to be equally complex, there are no plausible evolutionary intermediates with which to construct phylogenies; and since centrioles contain no DNA, they have attracted relatively little attention from neo Darwinian biologists who think that DNA is the secret of life. From an intelligent design (ID) perspective, centrioles may have no evolutionary intermediates because they are irreducibly complex. And they may need no DNA because they carry another form of biological information that is independent of the genetic mutations relied upon by neo-Darwinists. In this paper, Wells assumes that centrioles are designed to function as the tiny turbines they appear to be, rather than being accidental by-products of Darwinian evolution. He then formulates a testable hypothesis about centriole function and behavior that, if corroborated by experiment, could have important implications for our understanding of cell division and cancer. Wells thus makes a case for ID by showing its strong heuristic value in biology. That is, he uses the theory of intelligent design to make new discoveries in biology.

Scott Minnich and Stephen C. Meyer, "Genetic Analysis of Coordinate Flagellar and Type III Regulatory Circuits," Proceedings of the Second International Conference on Design & Nature, Rhodes Greece, edited by M.W. Collins and C.A. Brebbia (WIT Press, 2004). (PDF, 620KB)

This article underwent conference peer review in order to be included in this peer-edited proceedings. Minnich and Meyer do three important things in this paper. First, they refute a popular objection to Michael Behe's argument for the irreducible complexity of the bacterial flagellum. Second, they suggest that the Type III Secretory System present in some bacteria, rather than being an evolutionary intermediate to the bacterial flagellum, is probably represents a degenerate form of the bacterial flagellum. Finally, they argue explicitly that intelligent design is a better than the Neo-Darwinian mechanism for explaining the origin of the bacterial flagellum.

LISTA COMPLETA:

Livros Cientificos Revistos por Pares que Apoiam o Design Inteligente Publicados Por Publicações da Área da Especialidade e por Editoras Universitárias

W.A. Dembski, The Design Inference: Eliminating Chance through Small Probabilities (Cambridge: Cambridge University Press, 1998).

This book was published by Cambridge University Press and peer-reviewed as part of a distinguished monograph series, Cambridge Studies in Probability, Induction, and Decision Theory. The editorial board of that series includes members of the National Academy of Sciences as well as one Nobel laureate, John Harsanyi, who shared the prize in 1994 with John Nash, the protagonist in the film A Beautiful Mind. Commenting on the ideas in The Design Inference, well-known physicist and science writer Paul Davies remarks: "Dembski's attempt to quantify design, or provide mathematical criteria for design, is extremely useful. I'm concerned that the suspicion of a hidden agenda is going to prevent that sort of work from receiving the recognition it deserves." Quoted in L. Witham, By Design (San Francisco: Encounter Books, 2003), p. 149.

Michael Behe, Darwin's Black Box: The Biochemical Challenge to Evolution (The Free Press, 1996).

In this book Behe develops a critique of the mechanism of natural selection and a positive case for the theory of intelligent design based upon the presence of "irreducibly complex molecular machines" and circuits inside cells. Though this book was published by The Free Press, a trade press, the publisher subjected the book to standard scientific peer-review by several prominent biochemists and biological scientists.

Charles B. Thaxton, Walter L. Bradley, Roger L. Olsen, The Mystery of Life's Origin: Reassessing Current Theories (Philosophical Library, 1984, Lewis & Stanley, 4th ed., 1992).

In this book Thaxton, Bradley and Olsen develop a seminal critique of origin of life studies and develop a case for the theory of intelligent design based upon the information content and "low-configurational entropy" of living systems.

John Angus Campbell and Stephen C. Meyer, Darwinism, Design, & Public Education (Michigan State University Press, 2003)

This is a collection of interdisciplinary essays that addresses the scientific and educational controversy concerning the theory of intelligent design. Accordingly, it was peer-reviewed by a philosopher of science, a rhetorician of science, and a professor in the biological sciences from an Ivy League university. The book contains five scientific articles advancing the case for the theory of intelligent design, the contents of which are summarized below.

Livros Cientificos que Apoiam o Design Inteligente Publicados por "Trade Presses" Proeminentes

Guillermo Gonzalez and Jay W. Richards, The Privileged Planet: How Our Place in the Cosmos is Designed for Discovery (Regnery Publishing, 2004).

Gonzalez and Richards develop a novel case for the theory of intelligent design based on developments in astronomy and planetary science. They show that the conditions necessary to produce a habitable planet are extremely rare and improbable. In addition, they show that the one planet we are aware of that possesses these characteristics is also a planet that has characteristics uniquely adapted to scientific exploration, thus suggesting not simply that the earth is the recipient of the fortunate conditions necessary for life, but that it appears to be uniquely designed for scientific discovery.

William Dembski, No Free Lunch: Why Specified Complexity Cannot be Purchased without Intelligence (Rowman & Littlefield Publishers, 2002).

Dembski refines his scientific method of design detection, responds to critics of his previous book (The Design Inference) and shows how his method of design detection applies to the kind of molecular machines analyzed by Michael Behe in Darwin's Black Box.

Michael Denton, Evolution: A Theory in Crisis (Adler & Adler, 1985).

Denton, an Australian molecular biologist, provides a comprehensive critique of neo- Darwinian evolutionary theory. In a penultimate chapter, entitled "The Molecular Labyrinth," he also develops a strong positive case for the design hypothesis based on the integrated complexity of molecular biological systems. As a religiously agnostic scientist, Denton emphasizes that this case for design is based upon scientific evidence and the application of standard forms of scientific reasoning. As Denton explains, while the case for design may have religious implications, "it does not depend upon religious premises."

Livros de Filosofia Revsitos por Pares que Apoiam o Design Inteligente Publicados por Editoras Académicas Universitárias

Del Ratzsch, Nature, Design, and Science: The Status of Design in Natural Science (State University of New York Press, 2001).

Michael C. Rea, World without Design : The Ontological Consequences of Naturalism (Oxford University Press, 2004).

Artigos que Apoiam o Design Inteligente Publicados em Revistas Cientificas Revistas por Pares

William A. Dembski and Robert J. Marks II, "Conservation of Information in Search: Measuring the Cost of Success," IEEE Transactions on Systems, Man and Cybernetics A, Systems & Humans, Vol. 39 (5):1051-1061 (September, 2009). (PDF, 359KB)

Darwinian evolution is, at its heart, a search algorithm that uses a trial and error process of random mutation and unguided natural selection to find genotypes (i.e. DNA sequences) that lead to phenotypes (i.e. biomolecules and body plans) that have high fitness (i.e. foster survival and reproduction). This peer-reviewed scientific article in the journal IEEE Transactions on Systems, Man and Cybernetics A, Systems & Humans by William Dembski and Robert Marks explains that unless a search starts off with some information about where peaks in a fitness landscape may lie, any search -- including Darwinian search algorithms-- are on average no better than a random search. After assessing various examples of evolutionary searches, Dembski and Marks show that attempts to model Darwinian evolution via computer simulations, such Richard Dawkins famous "METHINKSITISLIKEAWEASEL" example, start off with, as Dembski and Marks put it, "problem-specific information about the search target or the search-space structure." According to the paper, such simulations only reach their evolutionary targets because there is pre-specified "accurate information to guide them," or what they call "active information." The implication, of course, is that some intelligent programmer is required to front-load a search with active information if the search is to successfully find rare functional genetic sequences. They conclude that "Active information is clearly required in even modestly sized searches."

Ø. A. Voie, "Biological function and the genetic code are interdependent," Chaos, Solitons and Fractals, Vol 28(4) (2006): 1000-1004.

In this article, Norwegian scientist Øyvind Albert Voie examines an implication of Gödel's incompleteness theorem for theories about the origin of life. Gödel's first incompleteness theorem states that certain true statements within a formal system are unprovable from the axioms of the formal system. Voie then argues that the information processing system in the cell constitutes a kind of formal system because it "expresses both function and sign systems." As such, by Gödel's theorem it possesses many properties that are not deducible from the axioms which underlie the formal system, in this case, the laws of nature. He cites Michael Polanyi's seminal essay, Life's Irreducible Structure, in support of this claim. As Polanyi put it, "the structure of life is a set of boundary conditions that harness the laws of physics and chemistry their (the boundary condition's) structure cannot be defined in terms of the laws that they harness." As he further explained, "As the arrangement of a printed page is extraneous to the chemistry of the printed page, so is the base sequence in a DNA molecule extraneous to the chemical forces at work in the DNA molecule." Like Polanyi, Voie argues that the information and function of DNA and the cellular replication machinery must originate from a source that transcends physics and chemistry. In particular, since as Voie argues, "chance and necessity cannot explain sign systems, meaning, purpose, and goals," and since "mind possesses other properties that do not have these limitations," it is "therefore very natural that many scientists believe that life is rather a subsystem of some Mind greater than humans."

David L. Abel & Jack T. Trevors, “Self-organization vs. self-ordering events in life-origin models," Physics of Life Reviews, Vol. 3:211–228 (2006).

This article, co-authored by a theoretical biologist and an environmental biologist, explicitly challenges the ability of Darwinian mechanisms or self-organizational models to account for the origin of the language-based chemical code underlying life. They explain that "evolutionary algorithms, neural nets, and cellular automata have not been shown to self-organize spontaneously into nontrivial functions." However, the organization found that life, "typically contains large quantities of prescriptive information." According to the authors, "[p]rescription requires choice contingency rather than chance contingency or necessity," entailing an appeal to an intelligent cause. Throughout the paper, the articles use positive arguments explaining the creative power of "agents" as they cite to the work of Discovery Institute fellows and ID-theorists William Dembski, Charles Thaxton, and Walter Bradley. Critiquing models of self-organization, they conclude that "[t]he only self that can organize its own activities is a living cognitive agent."

John A. Davison, "A Prescribed Evolutionary Hypothesis," Rivista di Biologia/Biology Forum 98 (2005): 155-166.

Otto Schindewolf once wrote that evolution postulates "a unique, historical course of events that took place in the past, is not repeatable experimentally and cannot be investigated in that way." In this peer-reviewed article from a prestigious Italian biology journal, John A. Davison agrees with Schindewolf. Since "[o]ne can hardly expect to demonstrate a mechanism that simply does not and did not exist," Davison attempts to find new explanations for the origin of convergence among biological forms. Davison contends that "[t]he so-called phenomenon of convergent evolution may not be that at all, but simply the expression of the same preformed 'blueprints' by unrelated organisms." While discussing many remarkable examples of "convergent evolution," particularly the marsupial and placental saber-toothed cats, Davison's meaning is unmistakable: This evidence "bears, not only on the questions raised here, but also, on the whole issue of Intelligent Design." Davison clearly implies that this evidence is expected under an intelligent design model, but not under a Neo-Darwinian one.

S.C. Meyer, "The Origin of Biological Information and the Higher Taxonomic Categories," Proceedings of the Biological Society of Washington, 117(2) (2004): 213-239.

This article argues for intelligent design as an explanation for the origin of the Cambrian fauna. Not surprisingly, it created an international firestorm within the scientific community when it was published. (See Klinghoffer, The Branding of a Heretic, WALL STREET JOURNAL, Jan. 28, 2005, as well as the following website by the editor who oversaw the article's peer-review process: http://www.rsternberg.net.) The treatment of the editor who sent Meyer's article out for peer-review is a striking illustration of the sociological obstacles that proponents of intelligent design encounter in publishing articles that explicitly defend the theory of intelligent design.

M.J. Behe and D.W. Snoke, "Simulating Evolution by Gene Duplication of Protein Features That Require Multiple Amino Acid Residues," Protein Science, 13 (2004): 2651-2664.

In this article, Behe and Snoke show how difficult it is for unguided evolutionary processes to take existing protein structures and add novel proteins whose interface compatibility is such that they could combine functionally with the original proteins. By demonstrating inherent limitations to unguided evolutionary processes, this work gives indirect scientific support to intelligent design and bolsters Behe's case for intelligent design in answer to some of his critics.

D. A. Axe, "Estimating the Prevalence of Protein Sequences Adopting Functional Enzyme Folds," Journal of Molecular Biology, Vol. 341 (2004): 1295-1315.

This experimental study found that functional protein folds are extremely rare, finding that, "roughly one in 1064 signature-consistent sequences forms a working domain" and that the "overall prevalence of sequences performing a specific function by any domain-sized fold may be as low as 1 in 1077." Axe concludes that "functional folds require highly extraordinary sequences." Since Darwinian evolution only preserves biological structures which confer a functional advantage, this indicates it would be very difficult for such a blind mechanism to produce functional protein folds. This research also shows that there are high levels of specified complexity in enzymes, a hallmark indicator of intelligent design. Axe himself has confirmed that this study adds to the evidence for intelligent design: "In the 2004 paper I reported experimental data used to put a number on the rarity of sequences expected to form working enzymes. The reported figure is less than one in a trillion trillion trillion trillion trillion trillion. Again, yes, this finding does seem to call into question the adequacy of chance, and that certainly adds to the case for intelligent design." See Scientist Says His Peer-Reviewed Research in the Journal of Molecular Biology "Adds to the Case for Intelligent Design".

W.-E. Lönnig & H. Saedler, "Chromosome Rearrangements and Transposable Elements," Annual Review of Genetics, 36 (2002): 389-410.

This article examines the role of transposons in the abrupt origin of new species and the possibility of a partly predetermined generation of biodiversity and new species. The authors' approach is non-Darwinian, and they cite favorably the work of design theorists Michael Behe and William Dembski.

D.K.Y. Chiu & T.H. Lui, "Integrated Use of Multiple Interdependent Patterns for Biomolecular Sequence Analysis," International Journal of Fuzzy Systems, 4(3) (September 2002): 766-775.

The opening paragraph of this article reads: Detection of complex specified information is introduced to infer unknown underlying causes for observed patterns. By complex information, it refers to information obtained from observed pattern or patterns that are highly improbable by random chance alone. We evaluate here the complex pattern corresponding to multiple observations of statistical interdependency such that they all deviate significantly from the prior or null hypothesis. Such multiple interdependent patterns when consistently observed can be a powerful indication of common underlying causes. That is, detection of significant multiple interdependent patterns in a consistent way can lead to the discovery of possible new or hidden knowledge.

M.J. Denton, J.C. Marshall & M. Legge, (2002) "The Protein Folds as Platonic Forms: New Support for the pre-Darwinian Conception of Evolution by Natural Law," Journal of Theoretical Biology 219 (2002): 325-342.

This research is thoroughly non-Darwinian and teleological. It looks to laws of form embedded in nature to bring about biological structures. The intelligent design research program is broad, and design like this that's programmed into nature falls within its ambit.

D. A. Axe, "Extreme Functional Sensitivity to Conservative Amino Acid Changes on Enzyme Exteriors," Journal of Molecular Biology, Vol. 301 (2000): 585-595.

This study published by molecular biologist Douglas Axe, now at the Biologic Institute, challenges the widespread idea that high species-to-species variation in the amino-acid sequence of an enzyme implies modest functional constraints. Darwinists commonly assume that such variation indicates low selection pressure at the variable amino acid sites, allowing many mutations with little effect. Axe's research shows that even when mutations are restricted to these sites, they are severely disruptive, implying that proteins are highly specified even at variable sites. According to this work, sequences diverge not because substantial regions are free from functional constraints, but because selection filters most mutations, leaving only the harmless minority. By showing functional constraints to be the rule rather than the exception, it raises the question of whether chance can ever produce sequences that meet these constraints in the first place. Axe himself has confirmed that this study adds to the evidence for intelligent design: "I concluded in the 2000 JMB paper that enzymatic catalysis entails 'severe sequence constraints'. The more severe these constraints are, the less likely it is that they can be met by chance. So, yes, that finding is very relevant to the question of the adequacy of chance, which is very relevant to the case for design." See Scientist Says His Peer-Reviewed Research in the Journal of Molecular Biology "Adds to the Case for Intelligent Design".

Artigos que Apoiam o Design Inteligente Publicados em Antologias Cientificas Revistas por Pares

Lönnig, W.-E. Dynamic genomes, morphological stasis and the origin of irreducible complexity, Dynamical Genetics, Pp. 101-119. In Dynamical Genetics by V. Parisi, V. de Fonzo & F. Aluffi-Pentini, eds.,(Research Signpost, 2004)

Biology exhibits numerous invariants -- aspects of the biological world that do not change over time. These include basic genetic processes that have persisted unchanged for more than three-and-a-half billion years and molecular mechanisms of animal ontogenesis that have been constant for more than one billion years. Such invariants, however, are difficult to square with dynamic genomes in light of conventional evolutionary theory. Indeed, Ernst Mayr regarded this as one of the great unsolved problems of biology. In this paper Dr.Wolf-Ekkehard Lönnig Senior Scientist in the Department of Molecular Plant Genetics at the Max-Planck-Institute for Plant Breeding Research employs the design-theoretic concepts of irreducible complexity (as developed by Michael Behe) and specified complexity (as developed by William Dembski) to elucidate these invariants, accounting for them in terms of an intelligent design (ID) hypothesis.

Granville Sewell, Postscript, in Analysis of a Finite Element Method: PDE/PROTRAN (Springer Verlag, 1985). (HTML)

In this article appearing in a 1985 technical reference book, mathematician Granville Sewell compares the complexity found in the genetic code of life to that of a computer program. He recognizes that the fundamental problem for evolution is the "problem of novelties" which raises the question "How can natural selection cause new organs to arise and guide their development through the initial stages during which they present no selective advantage"? Sewell then explains how a Darwinist will try to bridge both functional and fossil gaps between biological structures through "a long chain of tiny improvements in his imagination," but notes that "the analogy with software puts his ideas into perspective." Major changes to a species require the intelligent foresight of a programmer. Natural selection, a process which is "unable to plan beyond the next tiny mutation" could never produce the complexity of life.

Cinco artigos cientificos de Darwinism, Design, & Public Education, editados por John Angus Campbell e Stephen C. Meyer (Michigan State University Press, 2003) (hereinafter DDPE):

Meyer, S. C. DNA and the origin of life: Information, specification and explanation, DDPE Pp. 223-285. (PDF, 1.13MB)

Meyer contends that intelligent design provides a better explanation than competing chemical evolutionary models for the origin of the information present in large bio-macromolecules such as DNA, RNA, and proteins. Meyer shows that the term information as applied to DNA connotes not only improbability or complexity but also specificity of function. He then argues that neither chance nor necessity, nor the combination of the two, can explain the origin of information starting from purely physical-chemical antecedents. Instead, he argues that our knowledge of the causal powers of both natural entities and intelligent agency suggests intelligent design as the best explanation for the origin of the information necessary to build a cell in the first place.

Behe, M. J., Design in the details: The origin of biomolecular machines. DDPE Pp. 287-302

Behe sets forth a central concept of the contemporary design argument, the notion of "irreducible complexity." Behe argues that the phenomena of his field include systems and mechanisms that display complex, interdependent, and coordinated functions. Such intricacy, Behe argues, defies the causal power of natural selection acting on random variation, the "no end in view" mechanism of neo-Darwinism. Yet he notes that irreducible complexity is a feature of systems that are known to be designed by intelligent agents. He thus concludes that intelligent design provides a better explanation for the presence of irreducible complexity in the molecular machines of the cell.

Nelson, P. & J. Wells, Homology in biology: Problem for naturalistic science and prospect for intelligent design, DDPE, Pp. 303-322.

Paul Nelson and Jonathan Wells reexamine the phenomenon of homology, the structural identity of parts in distinct species such as the pentadactyl plan of the human hand, the wing of a bird, and the flipper of a seal, on which Darwin was willing to rest his entire argument. Nelson and Wells contend that natural selection explains some of the facts of homology but leaves important anomalies (including many so-called molecular sequence homologies) unexplained. They argue that intelligent design explains the origin of homology better than the mechanisms cited by advocates of neo-Darwinism.

Meyer, S. C., Ross, M., Nelson, P. & P. Chien, The Cambrian explosion: biology's big bang, DDPE, Pp. 323-402. (PDF, 2.33MB)

Meyer, Ross, Nelson, and Chien show that the pattern of fossil appearance in the Cambrian period contradicts the predictions or empirical expectations of neo-Darwinian (and punctuationalist) evolutionary theory. They argue that the fossil record displays several features--a hierarchical top-down pattern of appearance, the morphological isolation of disparate body plans, and a discontinuous increase in information content--that are strongly reminiscent of the pattern of evidence found in the history of human technology. Thus, they conclude that intelligent design provides a better, more causally adequate, explanation of the origin of the novel animal forms present in the Cambrian explosion.

Dembski, W.A., Reinstating design within science, DDPE, Pp. 403-418.

Dembski argues that advances in the information sciences have provided a theoretical basis for detecting the prior action of an intelligent agent. Starting from the commonsense observation that we make design inferences all the time, Dembski shows that we do so on the basis of clear criteria. He then shows how those criteria, complexity and specification, reliably indicate intelligent causation. He gives a rational reconstruction of a method by which rational agents decide between competing types of explanation, those based on chance, physical-chemical necessity, or intelligent design. Since he asserts we can detect design by reference to objective criteria, Dembski also argues for the scientific legitimacy of inferences to intelligent design.

Artigos que Apoiam o Design Inteligente Editados por Pares em Revistas Cientificas, em Antologias Cientificas e em Actas de Conferências

Jonathan Wells, "Do Centrioles Generate a Polar Ejection Force?," Rivista di Biologia/Biology Forum 98 (2005): 37-62.

Most animal cells contain a pair of centrioles, tiny turbine-like organelles oriented at right angles to each other that replicate at every cell division. Yet the function and behavior of centrioles remain mysterious. Since all centrioles appear to be equally complex, there are no plausible evolutionary intermediates with which to construct phylogenies; and since centrioles contain no DNA, they have attracted relatively little attention from neo Darwinian biologists who think that DNA is the secret of life. From an intelligent design (ID) perspective, centrioles may have no evolutionary intermediates because they are irreducibly complex. And they may need no DNA because they carry another form of biological information that is independent of the genetic mutations relied upon by neo-Darwinists. In this paper, Wells assumes that centrioles are designed to function as the tiny turbines they appear to be, rather than being accidental by-products of Darwinian evolution. He then formulates a testable hypothesis about centriole function and behavior that, if corroborated by experiment, could have important implications for our understanding of cell division and cancer. Wells thus makes a case for ID by showing its strong heuristic value in biology. That is, he uses the theory of intelligent design to make new discoveries in biology.

Granville Sewell, "A Mathematician's View of Evolution," The Mathematical Intelligencer, Vol 22 (4) (2000). (HTML)

Mathematician Granville Sewell explains that Michael Behe's arguments against neo-Darwinism from irreducible complexity are supported by mathematics and the quantitative sciences, especially when applied to the problem of the origin of new genetic information. Sewell notes that there are "a good many mathematicians, physicists and computer scientists who ...are appalled that Darwin's explanation for the development of life is so widely accepted in the life sciences." Sewell compares the genetic code of life to a computer program--a comparison also made by computer gurus such as Bill Gates and evolutionary biologists such as Richard Dawkins. He notes that experience teaches that software depends on many separate functionally-coordinated elements. For this reason "[m]ajor improvements to a computer program often require the addition or modification of hundreds of interdependent lines, no one of which makes any sense, or results in any improvement, when added by itself." Since individual changes to part of a genetic program typically confer no functional advantage (in isolation from many other necessary changes to other portions of the genetic code), Sewell argues, that improvements to a genetic program require the intelligent foresight of a programmer. Undirected mutation and selection will not suffice to produce the necessary information.

Quatro artigos cientificos de W. A. Dembski & M. Ruse, eds., DEBATING DESIGN: FROM DARWIN TO DNA (Cambridge, United Kingdom, Cambridge University Press, 2004) (hereinafter DEBATING DESIGN)

Dembksi, W.A., The logical underpinnings of intelligent design, DEBATING DESIGN, Pp.
311-330.

In this article, Dembski outlines his method of design detection. In it he proposes a rigorous way of identifying the effects of intelligent causation and distinguishing them from the effects of undirected natural causes and material mechanisms. Dembski shows how the presence of specified complexity or "complex specified information" provides a reliable marker or indicator of prior intelligent activity. He also responds to a common criticism made against his method of design detection, namely that design inferences constitute "an argument from ignorance."

Bradley, W. L., Information, Entropy, and the Origin of Life, DEBATING DESIGN, Pp. 331-
351.

Walter Bradley is a mechanical engineer and polymer scientist. In the mid-1980's he co-authored what supporters consider a seminal critique of origin of life studies in the book The Mystery of Life's Origins. Bradley and his co-authors also developed a case for the theory of intelligent design based upon the information content and "low-configurational entropy" of living systems. In this chapter he updates that work. He clarifies the distinction between configurational and thermal entropy, and shows why materialistic theories of chemical evolution have not explained the configurational entropy present in living systems, a feature of living systems that Bradley takes to be strong evidence of intelligent design.

Behe, M., Irreducible complexity: obstacle to Darwinian evolution, DEBATING DESIGN, Pp. 352-370.

In this essay Behe briefly explains the concept of irreducible complexity and reviews why he thinks it poses a severe problem for the Darwinian mechanism of natural selection. In addition, he responds to several criticisms of his argument for intelligent design from irreducible complexity and several misconceptions about how the theory of intelligent design applies to biochemistry. In particular he discusses several putative counterexamples that some scientists have advanced against his claim that irreducibly complex biochemical systems demonstrate intelligent design. Behe turns the table on these counterexamples, arguing that these examples actually underscore the barrier that irreducible complexity poses to Darwinian explanations, and, if anything, show the need for intelligent design.

Meyer, S. C., The Cambrian information explosion: evidence for intelligent design, DEBATING DESIGN, Pp. 371-391.

Meyer argues for design on the basis of the Cambrian explosion, the geologically sudden appearance of new animal body plans during the Cambrian period. Meyer notes that this episode in the history of life represents a dramatic and discontinuous increase in the complex specified information of the biological world. He argues that neither the Darwinian mechanism of natural selection acting on random mutations nor alternative self-organizational mechanisms are sufficient to produce such an increase in information in the time allowed by the fossil evidence. Instead, he suggests that such increases in specified complex information are invariably associated with conscious and rational activity, that is, with intelligent design.

Scott Minnich and Stephen C. Meyer, "Genetic Analysis of Coordinate Flagellar and Type III Regulatory Circuits," Proceedings of the Second International Conference on Design & Nature, Rhodes Greece, edited by M.W. Collins and C.A. Brebbia (WIT Press, 2004).

This article underwent conference peer review in order to be included in this peer-edited proceedings. Minnich and Meyer do three important things in this paper. First, they refute a popular objection to Michael Behe's argument for the irreducible complexity of the bacterial flagellum. Second, they suggest that the Type III Secretory System present in some bacteria, rather than being an evolutionary intermediate to the bacterial flagellum, is probably represents a degenerate form of the bacterial flagellum. Finally, they argue explicitly that intelligent design is a better than the Neo-Darwinian mechanism for explaining the origin of the bacterial flagellum.

MERE CREATION: SCIENCE, FAITH & INTELLIGENT DESIGN (William A. Dembski ed., 1998).

This book contains fifteen scientific and philosophical essays supportive of the theory of intelligent design written by Ph.D.-level scientists and philosophers. The book was edited by William Dembski, who holds two Ph.D.s, one in mathematics from the University of Chicago, and one in philosophy from the University of Illinois.


Artigos que Apoiam o Design inteligente Publicados em Revistas de Filosofia Revistas por Pares

Behe, M.J., Self-Organization and Irreducibly Complex Systems: A Reply to Shanks and Joplin, PHILOSOPHY OF SCIENCE 67:155-162 (March 2000)

Craig, W.L., "God, Creation, and Mr. Davies." British Journal for the Philosophy of Science 37 (1986): 168-175

Craig, W.L., "Barrow and Tipler on the Anthropic Principle vs. Divine Design." British Journal for the Philosophy of Science 38 (1988): 389-395.

Craig, W.L., "The Anthropic Principle." In The History of Science and Religion in the Western Tradition: an Encyclopedia, pp. 366-368. Ed. G. B. Ferngren.

Craig, W.L., "Design and the Anthropic Fine-Tuning of the Universe." In GOD AND DESIGN: THE TELEOLOGICAL ARGUMENT AND MODERN SCIENCE, pp. 155-177. (ed. Neil Manson. London: Routledge, 2003).


Fonte: Discovery Institute

Tweetar