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200 10$aTheoretical nuclear physics in Italy$b[electronic resource] $eproceedings of the 11th Conference on Problems in Theoretical Nuclear Physics : Cortona, Italy, 11-14 October 2006 /$fedited by A. Covello ... [et al.]
210   $aHackensack, N.J. $cWorld Scientific$dc2007
215   $a1 online resource (433 p.)
300   $aDescription based upon print version of record.
311   $a981-270-770-0 
320   $aIncludes bibliographical references and index.
327   $aPreface; CONTENTS; In Memory of Adelchi Fabrocini; Few-Nucleon Systems; Nuclear Matter and Nuclear Dynamics; Nuclear Structure; Nuclear Astrophysics; Nuclear Physics with Electroweak Probes; Structure of Hadrons and Hadronic Matter; Quark-Gluon Plasma and Relativistic Heavy Ion Collisions; Experimental Nuclear Physics in Italy; Author Index; List of Participants
330   $aThis volume gives a comprehensive overview of the latest research activity undertaken in the field of theoretical nuclear physics in Italy. Several topics of current interest are included: from nuclear matter and nuclear structure to nuclear astrophysics and quark-gluon plasma.
606   $aNuclear physics$vCongresses
606   $aNuclear physics$xResearch$zItaly$vCongresses
608   $aElectronic books.
615  0$aNuclear physics
615  0$aNuclear physics$xResearch
676   $a539.7/07/2045
701   $aCovello$b A$g(Aldo)$044406
712 12$aConference on Problems in Theoretical Nuclear Physics
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200 10$aAdaptive diversification$b[electronic resource] /$fMichael Doebeli
205   $aCourse Book
210   $aPrinceton, N.J. $cPrinceton University Press$d2011
215   $a1 online resource (346 p.)
225 1 $aMonographs in population biology ;$v48
300   $aDescription based upon print version of record.
311 0 $a0-691-12893-6 
311 0 $a0-691-12894-4 
320   $aIncludes bibliographical references and index.
327   $tFront matter --$tContents --$tAcknowledgments --$tCHAPTER ONE. Introduction --$tCHAPTER TWO. Evolutionary Branching in a Classical Model for Sympatric Speciation --$tCHAPTER THREE. Adaptive Diversification Due to Resource Competition in Asexual Models --$tCHAPTER FOUR. Adaptive Diversification Due to Resource Competition in Sexual Models --$tCHAPTER FIVE. Adaptive Diversification Due to Predator-Prey Interactions --$tCHAPTER SIX. Adaptive Diversification Due to Cooperative Interactions --$tCHAPTER SEVEN. More Examples: Adaptive Diversification in Dispersal Rates, the Evolution of Anisogamy, and the Evolution of Trophic Preference --$tCHAPTER EIGHT. Cultural Evolution: Adaptive Diversification in Language and Religion --$tCHAPTER NINE. Adaptive Diversification and Speciation as Pattern Formation in Partial Differential Equation Models --$tCHAPTER TEN. Experimental Evolution of Adaptive Diversification in Microbes --$tAPPENDIX. Basic Concepts in Adaptive Dynamics --$tBibliography --$tIndex
330   $a"Understanding the mechanisms driving biological diversity remains a central problem in ecology and evolutionary biology. Traditional explanations assume that differences in selection pressures lead to different adaptations in geographically separated locations. This book takes a different approach and explores adaptive diversification--diversification rooted in ecological interactions and frequency-dependent selection. In any ecosystem, birth and death rates of individuals are affected by interactions with other individuals. What is an advantageous phenotype therefore depends on the phenotype of other individuals, and it may often be best to be ecologically different from the majority phenotype. Such rare-type advantage is a hallmark of frequency-dependent selection and opens the scope for processes of diversification that require ecological contact rather than geographical isolation. Michael Doebeli investigates adaptive diversification using the mathematical framework of adaptive dynamics. Evolutionary branching is a paradigmatic feature of adaptive dynamics that serves as a basic metaphor for adaptive diversification, and Doebeli explores the scope of evolutionary branching in many different ecological scenarios, including models of coevolution, cooperation, and cultural evolution. He also uses alternative modeling approaches. Stochastic, individual-based models are particularly useful for studying adaptive speciation in sexual populations, and partial differential equation models confirm the pervasiveness of adaptive diversification. Showing that frequency-dependent interactions are an important driver of biological diversity, Adaptive Diversification provides a comprehensive theoretical treatment of adaptive diversification"--$cProvided by publisher.
330   $a"Adaptive biological diversification occurs when frequency-dependent selection generates advantages for rare phenotypes and induces a split of an ancestral lineage into multiple descendant lineages. Using adaptive dynamics theory, individual-based simulations, and partial differential equation models, this book illustrates that adaptive diversification due to frequency-dependent ecological interaction is a theoretically ubiquitous phenomenon"--$cProvided by publisher.
410  0$aMonographs in population biology ;$v48.
606   $aAdaptation (Biology)$xMathematical models
606   $aBiodiversity$xMathematical models
606   $aEvolution (Biology)$xMathematical models
608   $aElectronic books.
610   $aLotka?olterra models.
610   $aMaynard Smith model.
610   $aRichard Lenski.
610   $aadaptive diversification.
610   $aadaptive dynamics theory.
610   $aadaptive dynamics.
610   $aadaptive speciation.
610   $aanisogamy.
610   $aasexual speciation.
610   $aassortative mating.
610   $abiological diversity.
610   $aclonal models.
610   $acoevolution.
610   $acoevolutionary dynamics.
610   $aconformist cultures.
610   $acooperative interactions.
610   $acrossfeeding.
610   $acultural evolution.
610   $adispersal rates.
610   $adisruptive selection.
610   $adiverging phenotypic clusters.
610   $adiversification.
610   $aecological character displacement.
610   $aecological dynamics.
610   $aecology.
610   $aecosystem.
610   $aevolutionary biology.
610   $aevolutionary branching.
610   $aevolutionary dynamics.
610   $aevolutionary processes.
610   $aevolutionary trajectory.
610   $aexperimental evolution.
610   $afrequency dependence.
610   $afrequency independence.
610   $afrequency-dependent competition.
610   $afrequency-dependent interactions.
610   $afrequency-dependent selection.
610   $agamete size.
610   $aindividual-based models.
610   $aintraspecific cooperation.
610   $alanguage memes.
610   $alanguage.
610   $amainstream culture.
610   $amathematical modeling.
610   $amating populations.
610   $amicrobes.
610   $amutualism.
610   $amutualistic interactions.
610   $aniche ecology.
610   $apartial differential equation models.
610   $apattern formation.
610   $aphenotype distributions.
610   $aphenotype.
610   $aphenotypic differentiation.
610   $aphenotypic divergence.
610   $apolymorphic populations.
610   $apolymorphism.
610   $apolymorphisms.
610   $apredation.
610   $apredator?rey interactions.
610   $aprezygotic reproductive isolation.
610   $areligion.
610   $areligious diversification.
610   $areproductive isolation.
610   $aresource competition.
610   $asexual populations.
610   $asexual reproduction.
610   $aspeciation model.
610   $atrophic preference.
615  0$aAdaptation (Biology)$xMathematical models.
615  0$aBiodiversity$xMathematical models.
615  0$aEvolution (Biology)$xMathematical models.
676   $a578.4
700   $aDoebeli$b Michael$f1961-$01044162
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200 00$aIce Crystals
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
215   $a1 online resource (104 p.)
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330   $aIce crystals are the most ubiquitous material found in the cryosphere environment of the Earth, in the planetary system, and also in our daily lives. In recent years, ice crystals have increased in importance as one of the key materials for finding solutions to settle various environmental concerns at a global scale. Furthermore, ice crystals are unique materials which are potentially extremely useful in various applications, for example, within the food sciences, medical sciences, and other fields. In dealing with these interesting subjects, research on ice crystals has been more actively pursued in recent years. The Special Issue "Ice Crystals" presents a wide varieties of topics related to ice crystals. It can be considered as a status report reviewing the recent research on ice crystals and serves to provide readers with information on the latest developments concerning ice crystals.
610   $aab initio calculation
610   $aantifreeze protein
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610   $acoarsening kinetics
610   $acryo-photo microscopy
610   $acryoprotective agent
610   $adecomposition
610   $adeformation
610   $aelectron paramagnetic resonance
610   $aformation
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610   $aGru?neisen parameter
610   $aice cream
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610   $amicrostructure
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610   $amolecular dynamics
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610   $ananoscale pores
610   $aNegative thermal expansivity
610   $apotential of mean force
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610   $apressure
610   $aquasi-liquid layer
610   $areformation
610   $aspin labeling
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