Axel Lange

Last updated
Axel Lange
Born (1955-01-29) January 29, 1955 (age 69)
Laufenburg, Germany
Known for EvoDevo, Extended Evolutionary Synthesis
Scientific career
Fields EvoDevo, evolutionary theory, biocultural evolution
Institutions University of Vienna

Axel Lange (born 1955) is a German evolutionary biologist and author. He researches and writes on open evolutionary developmental biology questions and the Extended Evolutionary Synthesis.

Contents

Life

Lange studied economics and philosophy at the University of Freiburg from 1975-80, after which he held various management positions in the IT industry. From 2010 to 2018 he studied evolutionary biology at the University of Vienna [1] and completed a PhD with distinction in 2018 at the Department of Theoretical Biology under Gerd B. Müller. Lange lives near Munich and has three grown up children.

Scientific contribution

A polydactyl kitten 8 Toed Red Maine Coon Polydactyl Kitten.png
A polydactyl kitten
Biased number of polydactylous toes in a Main Coon population Fig 5 29-11-2013-vereinfacht-deutsch.jpg
Biased number of polydactylous toes in a Main Coon population

Lange dealt with the PhD thesis "Evodevo mechanisms of polydactyly formation". [2] His work demonstrated that the number of additional toes in a population of 317 polydactyl Maine Coon cats is developmentally biased and follow different probabilities. The connection between small cellular changes (bistable random switches) and the formation of new toes was shown in the "Hemingway Model". [3] Whereas polydactyly can be initiated by genetic mutation, only the consideration of the constructive behaviors of the developmental system in which a genetic change becomes effective can adequatelely explain the biased phenotypic outcomes.

A Turing based reaction-diffusion system simulates with thresholds how small cellular changes in digit formation during early limb development as a result of a point mutation for polydactyly lead to the development of different numbers of toes in the phenotype. [4] Predictions of threshold behaviors in the cell groupings coincide closely with the thresholds observed in the polydactyly occurrences seen in the natural population. Developmental threshold effects can be seen as a mechanism that affects the speed of evolutionary change. Threshold based variation in development is a way of rapid response to selectional, mutational, or environmental perturbation.

Another study analyzes the knowledge about polydactyly from antiquity through the Middle Ages to molecular genetics and epigenetic evo-devo research in this day and age. Lange and Müller focus on conceptual issues polydactyly has raised in contributions it has made to the theories of developmental biology, in the study of inheritance, and in evolutionary contexts. [5]

Oldest illustration in Europe of a symmetrical polydactyl animal, here a chicken with 5 toes on both feet from Bartolomeo Ambrosini (1642) Polydaktyler Vogel (Porphyrio porphyrio).png
Oldest illustration in Europe of a symmetrical polydactyl animal, here a chicken with 5 toes on both feet from Bartolomeo Ambrosini (1642)

Lange's work provides support for the role of discontinuous variation in phenotypic evolution and the contribution of developmental effects to the origin of phenotypic novelty: complete anatomical entities such as extra or less digits can be added (or lost) in a single step from one generation to the next. The repeated and permanent "ochestration" by natural selection required by the standard theory for the emergence of complex variation is put into perpective. [2]

Reception

Polydactyly not only represents an informative case in the study of developmental principles, but it also highlights the necessity for an extended theory of evolution that can account for both continuous and discontinuous forms of phenotypic variation. In this way Lange's evo-devo-contributions provide important content on the Extended Evolutionary Synthesis, in particular on discontinuous variation, developmental bias, and the genotype-phenotype relationship. [6] [7] [8] [9] [10] [11] [12] [13]

Lange's book "Extending the Evolutionary Synthesis", [14] published by Taylor & Francis in 2023, provides an "excellent overview of a large part of today’s theorizing in evolutionary biology". [15] It is the first monograph to give an overall impression of the state of the Extended Evolutionary Synthesis and it's contributors, including Eva Jablonka, Gerd B. Müller, Denis Noble, Armin Moczek, Mary Jane West-Eberhard, James A. Shapiro, Sean B. Carroll, Marc Kirschner, John Odling-Smee, Kevin Lala, David Sloan Wilson, and others, some of whom have been interviewed by the author about their theories.

Publications

Books

Articles

Axel Lange The Third Way of Evolution

Axel Lange Google Scholar

Die Rätsel des sechsten Fingers (The riddles of the sixth finger). DERSTANDARD, Wien)

Related Research Articles

<span class="mw-page-title-main">Evolutionary developmental biology</span> Comparison of organism developmental processes

Evolutionary developmental biology is a field of biological research that compares the developmental processes of different organisms to infer how developmental processes evolved.

<span class="mw-page-title-main">Modern synthesis (20th century)</span> Fusion of natural selection with Mendelian inheritance

The modern synthesis was the early 20th-century synthesis of Charles Darwin's theory of evolution and Gregor Mendel's ideas on heredity into a joint mathematical framework. Julian Huxley coined the term in his 1942 book, Evolution: The Modern Synthesis. The synthesis combined the ideas of natural selection, Mendelian genetics, and population genetics. It also related the broad-scale macroevolution seen by palaeontologists to the small-scale microevolution of local populations.

<span class="mw-page-title-main">Mutationism</span> One of several alternatives to evolution by natural selection

Mutationism is one of several alternatives to evolution by natural selection that have existed both before and after the publication of Charles Darwin's 1859 book On the Origin of Species. In the theory, mutation was the source of novelty, creating new forms and new species, potentially instantaneously, in sudden jumps. This was envisaged as driving evolution, which was thought to be limited by the supply of mutations.

<span class="mw-page-title-main">Facilitated variation</span>

The theory of facilitated variation demonstrates how seemingly complex biological systems can arise through a limited number of regulatory genetic changes, through the differential re-use of pre-existing developmental components. The theory was presented in 2005 by Marc W. Kirschner and John C. Gerhart.

<i>Origination of Organismal Form</i>

Origination of Organismal Form: Beyond the Gene in Developmental and Evolutionary Biology is an anthology published in 2003 edited by Gerd B. Müller and Stuart A. Newman. The book is the outcome of the 4th Altenberg Workshop in Theoretical Biology on "Origins of Organismal Form: Beyond the Gene Paradigm", hosted in 1999 at the Konrad Lorenz Institute for Evolution and Cognition Research. It has been cited over 200 times and has a major influence on extended evolutionary synthesis research.

<span class="mw-page-title-main">Polydactyl cat</span> Cats with genetic anomaly that causes extra toes

A polydactyl cat is a cat with a congenital physical anomaly called polydactyly, which causes the cat to be born with more than the usual number of toes on one or more of its paws. Cats with this genetically inherited trait are most commonly found along the East Coast of North America and in South West England and Wales.

In biology, saltation is a sudden and large mutational change from one generation to the next, potentially causing single-step speciation. This was historically offered as an alternative to Darwinism. Some forms of mutationism were effectively saltationist, implying large discontinuous jumps.

Genetic assimilation is a process described by Conrad H. Waddington by which a phenotype originally produced in response to an environmental condition, such as exposure to a teratogen, later becomes genetically encoded via artificial selection or natural selection. Despite superficial appearances, this does not require the (Lamarckian) inheritance of acquired characters, although epigenetic inheritance could potentially influence the result. Waddington stated that genetic assimilation overcomes the barrier to selection imposed by what he called canalization of developmental pathways; he supposed that the organism's genetics evolved to ensure that development proceeded in a certain way regardless of normal environmental variations.

<span class="mw-page-title-main">Structuralism (biology)</span> Attempt to explain evolution by forces other than natural selection

Biological or process structuralism is a school of biological thought that objects to an exclusively Darwinian or adaptationist explanation of natural selection such as is described in the 20th century's modern synthesis. It proposes instead that evolution is guided differently, basically by more or less physical forces which shape the development of an animal's body, and sometimes implies that these forces supersede selection altogether.

<span class="mw-page-title-main">Wallace Arthur</span> Irish zoologist

Wallace Arthur is an evolutionary biologist and science writer. He is Emeritus Professor of Zoology at the University of Galway. His most recent book is Understanding Life in the Universe, published by Cambridge University Press, which focuses on the likely extent and nature of extraterrestrial life. He was one of the founding editors of the journal Evolution & Development, serving as an editor for nearly 20 years. He has held visiting positions at Harvard University, Darwin College Cambridge, and the University of Warmia and Mazury in Olsztyn, Poland.

<span class="mw-page-title-main">Gerd B. Müller</span> Austrian biologist (born 1953)

Gerd B. Müller is an Austrian biologist who is emeritus professor at the University of Vienna where he was the head of the Department of Theoretical Biology in the Center for Organismal Systems Biology. His research interests focus on vertebrate limb development, evolutionary novelties, evo-devo theory, and the Extended Evolutionary Synthesis. He is also concerned with the development of 3D based imaging tools in developmental biology.

The Extended Evolutionary Synthesis (EES) consists of a set of theoretical concepts argued to be more comprehensive than the earlier modern synthesis of evolutionary biology that took place between 1918 and 1942. The extended evolutionary synthesis was called for in the 1950s by C. H. Waddington, argued for on the basis of punctuated equilibrium by Stephen Jay Gould and Niles Eldredge in the 1980s, and was reconceptualized in 2007 by Massimo Pigliucci and Gerd B. Müller.

Ryuichi Matsuda was a Japanese entomologist and notable advocate of the extended evolutionary synthesis.

Human evolutionary developmental biology or informally human evo-devo is the human-specific subset of evolutionary developmental biology. Evolutionary developmental biology is the study of the evolution of developmental processes across different organisms. It is utilized within multiple disciplines, primarily evolutionary biology and anthropology. Groundwork for the theory that "evolutionary modifications in primate development might have led to … modern humans" was laid by Geoffroy Saint-Hilaire, Ernst Haeckel, Louis Bolk, and Adolph Schultz. Evolutionary developmental biology is primarily concerned with the ways in which evolution affects development, and seeks to unravel the causes of evolutionary innovations.

<span class="mw-page-title-main">Alternatives to Darwinian evolution</span> List of alternatives to Darwinian natural selection

Alternatives to Darwinian evolution have been proposed by scholars investigating biology to explain signs of evolution and the relatedness of different groups of living things. The alternatives in question do not deny that evolutionary changes over time are the origin of the diversity of life, nor that the organisms alive today share a common ancestor from the distant past ; rather, they propose alternative mechanisms of evolutionary change over time, arguing against mutations acted on by natural selection as the most important driver of evolutionary change.

In biology, reciprocal causation arises when developing organisms are both products of evolution as well as causes of evolution. Formally, reciprocal causation exists when process A is a cause of process B and, subsequently, process B is a cause of process A, with this feedback potentially repeated. Some researchers, particularly advocates of the extended evolutionary synthesis, promote the view that causation in biological systems is inherently reciprocal.

In biology, constructive development refers to the hypothesis that organisms shape their own developmental trajectory by constantly responding to, and causing, changes in both their internal state and their external environment. Constructive development can be contrasted with programmed development, the hypothesis that organisms develop according to a genetic program or blueprint. The constructivist perspective is found in philosophy, most notably developmental systems theory, and in the biological and social sciences, including developmental psychobiology and key themes of the extended evolutionary synthesis. Constructive development may be important to evolution because it enables organisms to produce functional phenotypes in response to genetic or environmental perturbation, and thereby contributes to adaptation and diversification.

Kevin Neville Lala is an English evolutionary biologist who is Professor of Behavioural and Evolutionary Biology at the University of St Andrews in Scotland. Educated at the University of Southampton and University College London, he was a Human Frontier Science Program fellow at the University of California, Berkeley before joining the University of St Andrews in 2002. He is one of the co-founders of niche construction theory and a prominent advocate of the extended evolutionary synthesis. He is a fellow of the Royal Society of Edinburgh and the Society of Biology. He has also received a European Research Council Advanced Grant, a Royal Society Wolfson Research Merit Award, and a John Templeton Foundation grant. He was the president of the European Human Behaviour and Evolution Association from 2007 to 2010 and a former president of the Cultural Evolution Society. Lala is currently an external faculty of the Konrad Lorenz Institute for Evolution and Cognition Research.

In evolutionary biology, developmental bias refers to the production against or towards certain ontogenetic trajectories which ultimately influence the direction and outcome of evolutionary change by affecting the rates, magnitudes, directions and limits of trait evolution. Historically, the term was synonymous with developmental constraint, however, the latter has been more recently interpreted as referring solely to the negative role of development in evolution.

Bias in the introduction of variation is a theory in the domain of evolutionary biology that asserts biases in the introduction of heritable variation are reflected in the outcome of evolution. It is relevant to topics in molecular evolution, evo-devo, and self-organization. In the context of this theory, "introduction" ("origination") is a technical term for events that shift an allele frequency upward from zero. Formal models demonstrate that when an evolutionary process depends on introduction events, mutational and developmental biases in the generation of variation may influence the course of evolution by a first come, first served effect, so that evolution reflects the arrival of the likelier, not just the survival of the fitter. Whereas mutational explanations for evolutionary patterns are typically assumed to imply or require neutral evolution, the theory of arrival biases distinctively predicts the possibility of mutation-biased adaptation. Direct evidence for the theory comes from laboratory studies showing that adaptive changes are systematically enriched for mutationally likely types of changes. Retrospective analyses of natural cases of adaptation also provide support for the theory. This theory is notable as an example of contemporary structuralist thinking, contrasting with a classical functionalist view in which the course of evolution is determined by natural selection.

References

  1. Axel Lange CV
  2. 1 2 Axel Lange (2018): Evodevo mechanisms of polydactyly formation
  3. Axel Lange, Hans Leo Nemeschkal, Gerd B. Müller (2014) Biased polyphenism in polydactylous cats carrying a single point mutation: the Hemingway model for of digit novelty. Evolutionary Biology, 41 (2), 262-275, 29, 2014 doi:10.1007/s11692-013-9267-y
  4. Axel Lange, Hans Leo Nemeschkal, Gerd B. Müller (2018) A threshold model for polydactyly. Progress in Biophysics and Molecular Biology 137, 1-11 https://doi.org/10.1016/j.pbiomolbio.2018.04.007
  5. Axel Lange, Gerd B. Müller (2017) Polydactyly in Development, Inheritance, and Evolution. The Quarterly Review of Biology 92 (1), 1-28, 34, 2017 doi: 10.1086/690841
  6. Laland KN, Uller T, Feldman MW, Sterelny K, Müller GB, Moczek A, Jablonka E, Odling-Smee J. 2015. The Extended Evolutionary Synthesis: Its structure, assumptions and predictions. Proc Biol Sci 282. doi: 10.1098/rspb.2015.1019
  7. Denis Noble, Eva Jablonka, Michael J Joyner, Gerd B Müller, and Stig W Omholt (2014) Evolution evolves: physiology returns to centre stage. J Physiol. 2014 Jun 1; 592(Pt 11): 2237–2244. doi: 10.1113/jphysiol.2014.273151
  8. John J. Welsh (2023) The Creativity of Natural Selection and the Creativity of Organisms: Their Roles in Traditional Evolutionary Theory and Some Proposed Extensions. In: Thomas E. Dickins, Benjamin J. A: Dickins ( eds.): Evolutionary Biology: Contemporary and Historical Reflections Upon Core Theory. Springer
  9. Paul G. Layer (2022) Post-genomics, Evo-Devo and the recurrence of teleologic thought. BioCosmos · May 2022 doi: 10.2478/biocosmos-2022-0002
  10. Stuart A. Newman, Ramray Bhat (2021) Spatial and temporal waves in vertebrate limb development. Biosystems 208 (Suppl. 7) 104502 https://doi.org/10.1016/j.biosystems.2021.104502
  11. Gerd B. Müller (2017) Why an extended evolutionary synthesis is necessary. Interface Focus7(5): 20170015 doi: 10.1098/rsfs.2017.0015
  12. Jan Baedtke (2021) The Origin of New Levels of Organization. doi: 10.7551/mitpress/12389.003.0012. In book: Levels of Organization in the Biological Sciences. MIT Press
  13. Cristina Villegas and Vanessa Trivino (2023) Tipología y disposiciones del organismo en la evo-devo: una aproximación metafísica Typology and Organismal Dispositions in Evo-Devo: A Metaphysical Approach. ArtefaCToS. Revista de estudios de la ciencia y la tecnología eISSN: 1989-3612 Vol. 12, No. 1 (2023), 2.ª Época, 79-102 DOI: https://doi.org/10.14201/art202312179102
  14. Axel Lange (2023) Extending the Evolutionary Synthesis: Darwin’s Legacy Redesigned. CRC Press. https://doi.org/10.1201/9781003341413
  15. Lennnart Olsson (2021) Evolutionstheorie im Umbau. Ist Darwin überholt? Acta Zoologica. 2021;00:1–3. doi: 10.1111/azo.12414 (English review of the German edition of: Extending the Evolutionary Synthesis)
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