Diversity and Evolution of Butterfly Wing Patterns

Diversity and Evolution of Butterfly Wing Patterns
Author: Toshio Sekimura
Publisher: Springer
Total Pages: 322
Release: 2017-08-29
Genre: Science
ISBN: 9811049564
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This book facilitates an integrative understanding of the development, genetics and evolution of butterfly wing patterns. To develop a deep and realistic understanding of the diversity and evolution of butterfly wing patterns, it is essential and necessary to approach the problem from various kinds of key research fields such as “evo-devo,” “eco-devo,” ”developmental genetics,” “ecology and adaptation,” “food plants,” and “theoretical modeling.” The past decade-and-a-half has seen a veritable revolution in our understanding of the development, genetics and evolution of butterfly wing patterns. In addition, studies of how environmental and climatic factors affect the expression of color patterns has led to increasingly deeper understanding of the pervasiveness and underlying mechanisms of phenotypic plasticity. In recognition of the great progress in research on the biology, an international meeting titled “Integrative Approach to Understanding the Diversity of Butterfly Wing Patterns (IABP-2016)” was held at Chubu University, Japan in August 2016. This book consists of selected contributions from the meeting. Authors include main active researchers of new findings of corresponding genes as well as world leaders in both experimental and theoretical approaches to wing color patterns. The book provides excellent case studies for graduate and undergraduate classes in evolution, genetics/genomics, developmental biology, ecology, biochemistry, and also theoretical biology, opening the door to a new era in the integrative approach to the analysis of biological problems. This book is open access under a CC BY 4.0 license.

DEV & EVOL BUTTERFLY WING

DEV & EVOL BUTTERFLY WING
Author: NIJHOUT H FREDERIK
Publisher: Smithsonian Books (DC)
Total Pages: 336
Release: 1991-08-17
Genre: Nature
ISBN:
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Butterfly wing color patterns may indicate sex or distastefulness, may mimic other organisms, may act as camouflage, or they may confuse predators. Most species may be identified by their color patterns alone. Furthermore, the dorsal and ventral patterns may be very different and each has evolved separately. These patterns are not random but are homologous units which can be identified in all species. The patterns are permutations of the nymphalid ground plan. This book describes the elucidation of these homologies based on comparative morphology, genetics, and theoretical modelling. The book is supplemented by line-drawings, diagrams, photographs, charts, tables, graphs, three appendices: "Classification and systematics of the Butterflies", "Higher Classification of the Nymphalidae", and a list of genera in the figures in chapter 2 ("Pattern Elements and Homologies"), a bibliography and an index.--BIOSIS.

The Development and Evolution of Butterfly Wing Patterns

The Development and Evolution of Butterfly Wing Patterns
Author: H. Frederik Nijhout
Publisher: Smithsonian Institution
Total Pages: 315
Release: 1991-08-17
Genre: Science
ISBN: 0874749174
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Integrating the results of comparative morphology, experiments on pattern development, the genetics of color patterns, and theoretical modeling of pattern formation, Nijhout shows that the enormous diversity of natural patterns arises largely from quantitative variations in a small set of readily understandable generating rules.

Diversity and Evolution of Butterfly Wing Patterns

Diversity and Evolution of Butterfly Wing Patterns
Author: Toshio Sekimura
Publisher:
Total Pages: 320
Release: 2020-10-08
Genre: Science
ISBN: 9781013268489
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This book facilitates an integrative understanding of the development, genetics and evolution of butterfly wing patterns. To develop a deep and realistic understanding of the diversity and evolution of butterfly wing patterns, it is essential and necessary to approach the problem from various kinds of key research fields such as "evo-devo," "eco-devo," "developmental genetics," "ecology and adaptation," "food plants," and "theoretical modeling."The past decade-and-a-half has seen a veritable revolution in our understanding of the development, genetics and evolution of butterfly wing patterns. In addition, studies of how environmental and climatic factors affect the expression of color patterns has led to increasingly deeper understanding of the pervasiveness and underlying mechanisms of phenotypic plasticity. In recognition of the great progress in research on the biology, an international meeting titled "Integrative Approach to Understanding the Diversity of ButterflyWing Patterns (IABP-2016)" was held at Chubu University, Japan in August 2016. This book consists of selected contributions from the meeting. Authors include main active researchers of new findings of corresponding genes as well as world leaders in both experimental and theoretical approaches to wing color patterns.The book provides excellent case studies for graduate and undergraduate classes in evolution, genetics/genomics, developmental biology, ecology, biochemistry, and also theoretical biology, opening the door to a new era in the integrative approach to the analysis of biological problems. This work was published by Saint Philip Street Press pursuant to a Creative Commons license permitting commercial use. All rights not granted by the work's license are retained by the author or authors.

Butterfly Wing Patterns and Mimicry

Butterfly Wing Patterns and Mimicry
Author:
Publisher: Academic Press
Total Pages: 132
Release: 2018-05-15
Genre: Science
ISBN: 0128137711
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Butterfly Wing Patterns and Mimicry, Volume 54, provides an essential reference for those interested in molecular Entomology and the study of natural selection. The volume spans work on the genetics of polymorphism in Heliconius butterflies through to a detailed analysis of the role of CRISPR-CAS in dissecting wing patterning. The volume covers both the evolution and fine scale development of both pattern and pigmentation. The role of wing shape is also considered for the first time in a formal analysis. It should be of interest to both experts and students interested in Entomology and its application to fundamental questions in evolution. - Expertise of the contributors, topics, illustrations

Morphogenesis and Pattern Formation in Biological Systems

Morphogenesis and Pattern Formation in Biological Systems
Author: T. Sekimura
Publisher: Springer Science & Business Media
Total Pages: 391
Release: 2013-11-11
Genre: Mathematics
ISBN: 4431659587
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A central goal of biology is to decode the mechanisms that underlie the processes of morphogenesis and pattern formation. Concerned with the analysis of those phenomena, this book integrates experimental and theoretical aspects of biology for the construction and investigation of models of complex processes. It offers an interdisciplinary approach to the pattern formation problems and provides a scope of forthcoming integrated biology including experiments and theories.

Butterflies

Butterflies
Author: Carol L. Boggs
Publisher: University of Chicago Press
Total Pages: 784
Release: 2003-07
Genre: Nature
ISBN: 9780226063171
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In Butterflies: Ecology and Evolution Taking Flight, the world's leading experts synthesize current knowledge of butterflies to show how the study of these fascinating creatures as model systems can lead to deeper understanding of ecological and evolutionary patterns and processes in general. The twenty-six chapters are organized into broad functional areas, covering the uses of butterflies in the study of behavior, ecology, genetics and evolution, systematics, and conservation biology. Especially in the context of the current biodiversity crisis, this book shows how results found with butterflies can help us understand large, rapid changes in the world we share with them—for example, geographic distributions of some butterflies have begun to shift in response to global warming, giving early evidence of climate change that scientists, politicians, and citizens alike should heed. The first international synthesis of butterfly biology in two decades, Butterflies: Ecology and Evolution Taking Flight offers students, scientists, and amateur naturalists a concise overview of the latest developments in the field. Furthermore, it articulates an exciting new perspective of the whole group of approximately 15,000 species of butterflies as a comprehensive model system for all the sciences concerned with biodiversity and its preservation. Contributors: Carol L. Boggs, Paul M. Brakefield, Adriana D. Briscoe, Dana L. Campbell, Elizabeth E. Crone, Mark Deering, Henri Descimon, Erika I. Deinert, Paul R. Ehrlich, John P. Fay, Richard ffrench-Constant, Sherri Fownes, Lawrence E. Gilbert, André Gilles, Ilkka Hanski, Jane K. Hill, Brian Huntley, Niklas Janz, Greg Kareofelas, Nusha Keyghobadi, P. Bernhard Koch, Claire Kremen, David C. Lees, Jean-François Martin, Antónia Monteiro, Paulo César Motta, Camille Parmesan, William D. Patterson, Naomi E. Pierce, Robert A. Raguso, Charles Lee Remington, Jens Roland, Ronald L. Rutowski, Cheryl B. Schultz, J. Mark Scriber, Arthur M. Shapiro, Michael C. Singer, Felix Sperling, Curtis Strobeck, Aram Stump, Chris D. Thomas, Richard VanBuskirk, Hans Van Dyck, Richard I. Vane-Wright, Ward B. Watt, Christer Wiklund, and Mark A. Willis

Tinkering on the Wing

Tinkering on the Wing
Author: Arnaud Martin
Publisher:
Total Pages: 138
Release: 2012
Genre:
ISBN: 9781267389480
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The diversity of butterfly wing patterns makes them a model of choice for the study of evolutionary tinkering, where novelty is achieved by the combinatorial arrangement of pre-existing elements. In this work I expand our knowledge of the developmental genetic toolkit that drives both color pattern formation and variation. Using a candidate gene approach and macro-evolutionary comparisons, I first show that a Lepidoptera-specific copy of the homeobox transcription factor aristaless is expressed as a conserved pre-pattern that may provide positional information for recruitment of the DII pattern element. I also show that the signaling gene wingless marks several elements of an archetypal lepidopteran wing groundplan, clarifying homology relationships between pattern elements of different clades. Using a forward genetics approach at the micro-evolutionary timescale, I then identify two genes that are driving phenotypic variation in wing patterns of known adaptive relevance in the genus Heliconius. Cis-regulatory variants of the homeobox transcription factor optix switch color pattern identities prior to pigmentation, resulting in red patterns that are used as warning signals to predators. Similarly, cis-regulatory variants of the signaling ligand WntA determine differences in the shape of melanic patterns involved in mimicry. Both optix and WntA qualify as genetic hotspots of adaptation on Heliconius wings since they have been independently involved in driving adaptive phenotypic variation in separate clades, including the convergent evolution of co-mimetic phenotypes. Overall, the comparative and developmental insights obtained from these data yield important implications for an empirical understanding of evolutionary tinkering.

Endless Forms

Endless Forms
Author: Daniel J. Howard
Publisher: Oxford University Press, USA
Total Pages: 486
Release: 1998
Genre: Science
ISBN: 9780195109016
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Speciation is one of the great themes of evolutionary biology. It is the process through which new species are born and diversity generated. Yet for many years our understanding of the process consisted of little more than a perception that if populations are isolated geographically, they will diverge genetically and may come to form new species. This situation began to change in the 1960s as an increasing number of biologists challenged the exclusivity of allopatric speciation and began to probe more deeply into the actual process by which divergence occurs and reproductive isolation is acquired. This focus on process led to many new insights, but numerous questions remain and speciation is now one of the most dynamic areas of research in modern evolutionary biology. This volume presents the newest research findings on speciation bringing readers up to day on species concepts, modes of speciation, and the nature of reproductive barriers. It also discusses the forces that drive divergence of populations, the genetic control of reproductive isolation, and the role played by hybrid zones and hybridization in speciation.