The Development And Evolution Of Butterfly Wing Patterns
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| Author | : NIJHOUT H FREDERIK |
| Publisher | : Smithsonian Books (DC) |
| Total Pages | : 336 |
| Release | : 1991-08-17 |
| Genre | : Nature |
| ISBN | : |
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.
| Author | : NIJHOUT H FREDERIK |
| Publisher | : Smithsonian Books (DC) |
| Total Pages | : 336 |
| Release | : 1991-08-17 |
| Genre | : Nature |
| ISBN | : |
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.
| Author | : H. Frederik Nijhout |
| Publisher | : Smithsonian Institution |
| Total Pages | : 315 |
| Release | : 1991-08-17 |
| Genre | : Science |
| ISBN | : 0874749174 |
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.
| Author | : Toshio Sekimura |
| Publisher | : Springer |
| Total Pages | : 322 |
| Release | : 2017-08-29 |
| Genre | : Science |
| ISBN | : 9811049564 |
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.
| Author | : Marian R. Goldsmith |
| Publisher | : CRC Press |
| Total Pages | : 374 |
| Release | : 2009-09-01 |
| Genre | : Science |
| ISBN | : 1420060201 |
Numerous and charismatic, the Lepidoptera is one of the most widely studied groups of invertebrates. Advances in molecular tools and genomic techniques have reduced the need for large sizes and mass-rearing, and lepidopteran model systems are increasingly used to illuminate broad-based experimental questions as well as those peculiar to butterflies. Putting the spotlight on the second most numerous order of insects living today, this book provides a summary of cutting-edge studies of the Lepidoptera as an organism in and of itself and as model systems. Leading researchers discuss symbiosis, genomes, sex determination, natural products, ecophysiology, sensory systems, pest control, the sterile insect technique, immunity, and evolution development. Understanding the biology and genetics of butterflies and moths may lead to new species-selective methods of control, saving billions of dollars in pesticide use and protecting environmental and human health, making the sections on pest control and the sterile insect technique extremely important.
| Author | : Rudolf Bijlsma |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 352 |
| Release | : 1997-09-23 |
| Genre | : Medical |
| ISBN | : 9783764356958 |
Most organisms and populations have to cope with hostile environments, threatening their existence. Their ability to respond phenotypically and genetically to these challenges and to evolve adaptive mechanisms is, therefore, crucial. The contributions to this book aim at understanding, from a evolutionary perspective, the impact of stress on biological systems. Scientists, applying different approaches spanning from the molecular and the protein level to individuals, populations and ecosystems, explore how organisms adapt to extreme environments, how stress changes genetic structure and affects life histories, how organisms cope with thermal stress through acclimation, and how environmental and genetic stress induce fluctuating asymmetry, shape selection pressure and cause extinction of populations. Finally, it discusses the role of stress in evolutionary change, from stress induced mutations and selection to speciation and evolution at the geological time scale. The book contains reviews and novel scientific results on the subject. It will be of interest to both researchers and graduate students and may serve as a text for graduate courses.
| Author | : Toshio Sekimura |
| Publisher | : |
| Total Pages | : 320 |
| Release | : 2020-10-08 |
| Genre | : Science |
| ISBN | : 9781013268489 |
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.
| Author | : Michael A. Bell |
| Publisher | : Oxford University Press on Demand |
| Total Pages | : 571 |
| Release | : 1994 |
| Genre | : Nature |
| ISBN | : 9780198577287 |
The threespine stickleback is a small fish of temperate coastal and fresh waters that exhibits extraordinary phenotypic diversity. Benefiting from its amenability to observation in the field and manipulation in the laboratory, Niko Tinbergen pioneered the threespine stickleback's use in behavioral studies and established it as a model system in ethology. This up-to-date volume incorporates reviews from active researchers who use studies of the fish to address a broad variety of evolutionary issues, including optimal foraging, armor variation, speciation, and the endocrine basis for correlated behavioral characters. The work demonstrates the value of viewing the biology of a single organism simultaneously from multiple perspectives. Students and researchers in ecology, evolution, animal behavior, and vertebrate zoology will find much of interest in this useful book.
| Author | : Daniel J. Howard |
| Publisher | : Oxford University Press, USA |
| Total Pages | : 486 |
| Release | : 1998 |
| Genre | : Science |
| ISBN | : 9780195109016 |
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.
| Author | : James D. Murray |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 783 |
| Release | : 2013-06-29 |
| Genre | : Mathematics |
| ISBN | : 3662085429 |
Mathematics has always benefited from its involvement with developing sciences. Each successive interaction revitalises and enhances the field. Biomedical science is clearly the premier science of the foreseeable future. For the continuing health of their subject mathematicians must become involved with biology. With the example of how mathematics has benefited from and influenced physics, it is clear that if mathematicians do not become involved in the biosciences they will simply not be a part of what are likely to be the most important and exciting scientific discoveries of all time. Mathematical biology is a fast growing, well recognised, albeit not clearly defined, subject and is, to my mind, the most exciting modern application of mathematics. The increasing use of mathematics in biology is inevitable as biol ogy becomes more quantitative. The complexity of the biological sciences makes interdisciplinary involvement essential. For the mathematician, biology opens up new and exciting branches while for the biologist mathematical modelling offers another research tool commmensurate with a new powerful laboratory technique but only if used appropriately and its limitations recognised. However, the use of esoteric mathematics arrogantly applied to biological problems by mathemati cians who know little about the real biology, together with unsubstantiated claims as to how important such theories are, does little to promote the interdisciplinary involvement which is so essential. Mathematical biology research, to be useful and interesting, must be relevant biologically.
