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200 10$aHomology, genes, and evolutionary innovation /$fGu?nter P. Wagner
205   $aCourse Book
210  1$aPrinceton, New Jersey :$cPrinceton University Press,$d2014.
210  4$dİ2014
215   $a1 online resource (495 p.)
300   $aDescription based upon print version of record.
311 0 $a0-691-18067-9 
311 0 $a0-691-15646-8 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tContents --$tPreface --$tIntroduction: What This Book Aims to Do and What It Is Not --$tPart I. Concepts and Mechanisms --$tPart II. Paradigms and Research Programs --$tReferences --$tIndex
330   $aHomology-a similar trait shared by different species and derived from common ancestry, such as a seal's fin and a bird's wing-is one of the most fundamental yet challenging concepts in evolutionary biology. This groundbreaking book provides the first mechanistically based theory of what homology is and how it arises in evolution. Günter Wagner, one of the preeminent researchers in the field, argues that homology, or character identity, can be explained through the historical continuity of character identity networks-that is, the gene regulatory networks that enable differential gene expression. He shows how character identity is independent of the form and function of the character itself because the same network can activate different effector genes and thus control the development of different shapes, sizes, and qualities of the character. Demonstrating how this theoretical model can provide a foundation for understanding the evolutionary origin of novel characters, Wagner applies it to the origin and evolution of specific systems, such as cell types; skin, hair, and feathers; limbs and digits; and flowers. The first major synthesis of homology to be published in decades, Homology, Genes, and Evolutionary Innovation reveals how a mechanistically based theory can serve as a unifying concept for any branch of science concerned with the structure and development of organisms, and how it can help explain major transitions in evolution and broad patterns of biological diversity.
606   $aDevelopmental genetics
606   $aEvolution (Biology)
606   $aGenetic regulation
610   $aadaptation.
610   $aamniotes.
610   $aangiosperms.
610   $aautopodium.
610   $abiological diversity.
610   $abody parts.
610   $abody plans.
610   $abreasts.
610   $acanalization.
610   $acell fate.
610   $acell type identity.
610   $acell types.
610   $acell typogenesis.
610   $acells.
610   $acharacter identity network.
610   $acharacter identity.
610   $acharacter origination.
610   $acharacter states.
610   $acharacters.
610   $acis-regulatory elements.
610   $aclass.
610   $acommon ancestor.
610   $acommon ancestry.
610   $acryptic genetic variation.
610   $adevelopment.
610   $adevelopmental biology.
610   $adevelopmental evolution.
610   $adevelopmental genetics.
610   $adevelopmental mechanisms.
610   $adevelopmental pathways.
610   $adevelopmental types.
610   $adevelopmental variation.
610   $adevo-evo research.
610   $adigit identity.
610   $adigit loss.
610   $adigits.
610   $aembryonic stem cells.
610   $aevolution.
610   $aevolutionary biology.
610   $aevolutionary developmental biology.
610   $aevolutionary novelties.
610   $afeathers.
610   $afins.
610   $afin?imb transition.
610   $aflower development.
610   $aflower organ identity.
610   $aflower organs.
610   $aflowers.
610   $afunctional specialization.
610   $afunctionalism.
610   $agene duplication.
610   $agene expression.
610   $agene regulatory networks.
610   $agenes.
610   $agenetics.
610   $ahair.
610   $ahierarchical homology.
610   $ahomeotic genes.
610   $ahomologous genes.
610   $ahomologs.
610   $ahomology.
610   $aindividuals.
610   $ainnovation.
610   $alimbs.
610   $ametaphysics.
610   $amodularity.
610   $amolecular genetics.
610   $amolecular structuralism.
610   $amorphological characters.
610   $amorphological variation.
610   $anatural kinds.
610   $anatural selection.
610   $anovel characters.
610   $apaired fins.
610   $apentadactyl limb.
610   $aperianth.
610   $aphenotypic diversity.
610   $aphenotypic evolution.
610   $aphilosophy.
610   $apopulation biology.
610   $apositional information.
610   $arobustness.
610   $ascales.
610   $ascience.
610   $aserial homology.
610   $asignaling centers.
610   $askin appendages.
610   $askin derivatives.
610   $askin.
610   $astructuralism.
610   $atetrapod hand.
610   $atetrapod limbs.
610   $atranscription factor proteins.
610   $atranscription factors.
610   $atranscriptional regulation.
610   $atransposable elements.
610   $atypology.
610   $avariational structuralism.
610   $avertebrates.
615  0$aDevelopmental genetics.
615  0$aEvolution (Biology)
615  0$aGenetic regulation.
676   $a571.8/5
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200 10$aAcoustics-A Textbook for Engineers and Physicists $eVolume II: Applications /$fby Jerry H. Ginsberg
205   $a1st ed. 2018.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2018.
215   $a1 online resource (XXXV, 698 p. 267 illus., 172 illus. in color.)
311   $a3-319-56846-9 
327   $aList of Examples -- Preface -- Acknowledgements -- 7 Radiation from Vibrating Bodies -- 8 Radiation from a Source in a Baffle -- 9 Modal Analysis of Waveguides -- 10 Modal Analysis of Enclosures -- 11 Geometrical Acoustics -- 12 Scattering -- 13 Nonlinear Acoustic Waves -- Appendix A: Curvilinear Coordinates -- Appendix B: Fourier Transforms -- Index.
330   $aThis textbook provides graduate and advanced undergraduate students with a comprehensive introduction to the application of basic principles and concepts for physical and engineering acoustics. Many of the chapters are independent, and all build from introductory to more sophisticated material. Written by a well-known textbook author with 39 years of experience performing research, teaching, and mentoring in the field, it is specially designed to provide maximum support for learning. Derivations are rigorous and logical, with thorough explanations of operations that are not obvious. Many of the derivations and examples have not previously appeared in print. Important concepts are discussed for their physical implications and implementation. Many of the 56 examples are mini case studies that address systems students will find to be interesting and motivating for continued study. The example solutions address both the significance of the example and the reasoning underlying the formulation. Tasks that require computational work are fully explained. This volume contains 168 homework exercises, accompanied by a detailed solutions manual for instructors. Building on the foundation provided in Volume I: Fundamentals, this text offers a knowledge base that will enable the reader to begin undertaking research and to work in the core areas of acoustics. Provides broad and comprehensive treatment of the application of basic principles and techniques encountered in physical and engineering acoustics Contains 56 innovative examples, many of which are based on real-world research, highlighting the connection between physical phenomena and derived principles Features logical and rigorous presentation of derivations and examples, without sacrificing lucidity and explanation of operations that might be unfamiliar to the student Embeds coverage of numerical methods into the examples, including discussion of algorithms and associated macrocode, with Matlab code available online.
606   $aAcoustical engineering
606   $aAcoustics
606   $aOceanography
606   $aFluids
606   $aNoise control
606   $aBuildings
606   $aEngineering Acoustics$3https://scigraph.springernature.com/ontologies/product-market-codes/T16000
606   $aAcoustics$3https://scigraph.springernature.com/ontologies/product-market-codes/P21069
606   $aOceanography$3https://scigraph.springernature.com/ontologies/product-market-codes/G25005
606   $aFluid- and Aerodynamics$3https://scigraph.springernature.com/ontologies/product-market-codes/P21026
606   $aNoise Control$3https://scigraph.springernature.com/ontologies/product-market-codes/U27004
606   $aBuilding Types and Functions$3https://scigraph.springernature.com/ontologies/product-market-codes/K13004
615  0$aAcoustical engineering.
615  0$aAcoustics.
615  0$aOceanography.
615  0$aFluids.
615  0$aNoise control.
615  0$aBuildings.
615 14$aEngineering Acoustics.
615 24$aAcoustics.
615 24$aOceanography.
615 24$aFluid- and Aerodynamics.
615 24$aNoise Control.
615 24$aBuilding Types and Functions.
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