4 edition of mathematical theory of selection, recombination, and mutation found in the catalog.
mathematical theory of selection, recombination, and mutation
Includes bibliographical references (p. -388) and indexes.
|Series||Wiley series in mathematical and computational biology|
|LC Classifications||QH455 .B87 2000|
|The Physical Object|
|Pagination||xi, 409 p. :|
|Number of Pages||409|
|LC Control Number||00043345|
Population genetics occupies a central role in a number of important biological and social undertakings. It is fundamental to our understanding of evolutionary processes, of plant and animal breeding programs, and of various diseases of particular importance to mankind. This is the first of a planned two-volume work discussing the mathematical aspects of population 5/5(3). The theory remains controversial. It is simply not known what proportion of diﬀerences between individuals or species are maintained by selection, but it provides a valuable ‘null’ model against which data can be tested. If we are to assess the relative importance of mutation, selection, drift, spatial structure and so.
Which evolutionary mechanism - independent of natural selection, recombination, or mutation - will most likely result in rapid, random changes in gene frequencies? Reproductively isolated Speciation, a process in which a new biological species arises, occurs in stages and results in a species with an improved "fit" for its environment. most important ones being mutation, selection, recombination, migration, and genetic drift. Their interaction is extremely complex and, as such, inaccessible to a mathematical treatment. For the latter, one therefore has to narrow the focus to isolated combinations of .
This textbook is an introduction to dynamical systems and its applications to evolutionary game theory, mathematical ecology, and population genetics. This first English edition is a translation from the authors' successful German edition which has already made an enormous impact on the teaching and study of mathematical : Josef Hofbauer. MUTATION THEORY Rather than suggesting that speciation resulted from an accumulation of small variations over long periods of time, like Darwin's theory suggested, De Vries posited that new species could actually pop into existence in a single generation. In fact, according to De Vries, multiple representatives of the same new species.
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The Mathematical Theory of Selection, Recombination, and Mutation R. Bürger University of Vienna, Austria "It is close to being a masterpiece could well be the classic presentation of the area." Warren J.
Ewens, University of Pennsylvania, USA Population genetics is concerned with the study of the genetic, ecological, and evolutionary Cited by: Find helpful customer reviews and review ratings for The Mathematical Theory of Selection, Recombination, and Mutation at Read honest 5/5.
Get this from a library. The mathematical theory of selection, recombination, and mutation. [R Bürger] -- "Population genetics is concerned with the study of the genetic, ecological, and evolutionary factors that influence and change the genetic composition of populations. The emphasis here is on models.
Get this from a library. The mathematical theory of selection, recombination, and mutation. [Reinhard Bürger]. This le contains corrections, updates, further developments and additional remarks to my book The Mathematical Theory of Selection, Recombination, and Mutation (Chichester: Wiley, ).
Corrections are signi ed by bold page numbers. Chapter I p. 7: Between () and () every kshould be replaced by an m. The final chapters are concerned with the maintenance of quantitative-genetic variation, the response to directional selection, the evolutionary role of deleterious mutations, and other topics.
Graduate students and researchers in population genetics, evolutionary theory, and biomathematics will benefit from the in-depth coverage. Pris: kr. Inbunden, Skickas inom vardagar. Köp The Mathematical Theory of Selection, Recombination, and Mutation av R Burger på The Mathematical Theory of Selection, Recombination, and Mutation.
John Wiley & Sons. ISBN Full text not available from this repository. Abstract. Population genetics is concerned with the study of the genetic, ecological, and evolutionary factors that influence and change the genetic composition of by: Bürger has written an outstanding book.
As well as discussing selection, recombination and mutation, he explains how random drift interacts with these evolutionary forces. Thus, his book covers a large fraction of population genetics, the main exception being the neutral theory of molecular by: 1.
In that book I presented a single chapter on quanti tative genetic theory. However, as the book was concerned with the evolution of life histories and traits connected to this, the presence of quantitative genetic variation was an underlying theme throughout. The Mathematical Theory Of Selection Recombination And Mutation.
Author by: R. Natural selection is the differential survival and reproduction of individuals due to differences in is a key mechanism of evolution, the change in the heritable traits characteristic of a population over generations.
Charles Darwin popularised the term "natural selection", contrasting it with artificial selection, which in his view is intentional, whereas natural selection is not. Mathematical models in evolutionary genetics 5 Continuous time The preferable way to derive the continuous-time version of the selection dynamics () is to rescale tnesses and time according to w ij = 1 + m ij and t= b˝= c; () where m ij is called the Malthusian tness (or parameter) of A iA j and canCited by: A mathematical formulation of Darwin’s theory of evolutionary optimization through variation and selection is derived in terms of conventional ODEs that can be interpreted as chemical kinetics.
The mutation–selection process is the most fundamental mechanism of evolution. InR. Fisher proved his fundamental theorem of natural selection, providing a model in which the rate of change of mean fitness is equal to the genetic variance of a species.
Fisher did not include mutations in his model, but believed that mutations would provide a continual supply of. Mathematical models in genetics. The mathematical theory of selection, recombination and mutation.
We use a general representation of selection, recombination, and drift to analyze an. This is the first of a planned two-volume work discussing the mathematical aspects of population genetics, with an emphasis on the evolutionary theory.
This first volume draws heavily from the author's classic edition since the material in that edition may be taken, to a large extent, as introductory to the contemporary theory. Population genetics is a subfield of genetics that deals with genetic differences within and between populations, and is a part of evolutionary s in this branch of biology examine such phenomena as adaptation, speciation, and population structure.
Population genetics was a vital ingredient in the emergence of the modern evolutionary synthesis. The Mathematical Theory of Selection, Recombination & Mutation.
By Reinhard Bürger. John Wiley & Sons, Chichester, £ ISBN 0 4. Modelling the effects of selection in multilocus systems has long been a preoccupation of theoretical population geneticists. The conclusions derived from the models have implications for many important.
Mutation theory, idea that new species are formed from the sudden and unexpected emergence of alterations in their defining traits. Advanced at the beginning of the 20th century by Dutch botanist and geneticist Hugo de Vries in his Die Mutationstheorie (–03; The Mutation Theory), mutation theory joined two seemingly opposed traditions of evolutionary thought.
The gene-centered view of evolution, gene selection theory, or selfish gene theory holds that evolution occurs through the differential survival of competing genes, increasing the frequency of those alleles whose phenotypic effects successfully promote their own propagation, with gene defined as "not just one single physical bit of DNA but all replicas of a particular bit of DNA.
Mathematical theory of population genetics, fall Population genetics studies the genetic composition of biological populations, and its change under the influence of various factors, including natural selection, mutation, recombination and migration.A Mutation-Selection Model with Recombination for General Genotypes About this Title.
Steven N. Evans, Department of Statistics, Evans Hall, University of California, Berkeley, CaliforniaDavid Steinsaltz, Department of Statistics, 1 South Parks Road, Oxford, OX1 3TG, United Kingdom and Kenneth W.
Wachter, Department of Demography, Piedmont. Under the classical view, selection depends more or less directly on mutation: standing genetic variance is maintained by a balance between selection and mutation, and adaptation is fuelled by new favourable mutations.
Recombination is favoured if it breaks negative associations among selected alleles, which interfere with by: