As the post-WWII liberal democratic consensus comes under increasing assault around the globe, Zachary R. Goldsmith investigates a timely topic: the reemergence of fanaticism. His book demonstrates how the concept of fanaticism, so often flippantly invoked with little forethought, actually has a long history stretching back to ancient times. Tracing this history through the Reformation and the Enlightenment to our present moment of political extremism run amok, Goldsmith offers a novel account of fanaticism, detailing its transformation from a primarily religious to a political concept around the time of the French Revolution. He draws on the work of Immanuel Kant, Edmund Burke, and Fyodor Dostoevsky—all keen observers of fanaticism, and especially its political variant—in order to explore this crucial moment in the development of political fanaticism. Examining conceptualizations of fanaticism from different geographical, political, temporal, and contextual backgrounds, Goldsmith reveals how the concept has changed over time and resists easy definition. Nevertheless, his analysis of the writings of key figures from the tradition of political thought regarding fanaticism yields a complex and nuanced understanding of the concept that allows us to productively identify and observe its most salient characteristics: irrationality, messianism, the embrace of abstraction, the desire for novelty, the pursuit of perfection, a lack of limits in politics, the embrace of violence, certainty, passion, and its perennial attraction to intellectuals. Goldsmith’s political-philosophical history of fanaticism offers us an argument and warning against fanaticism itself, demonstrating that fanaticism is antidemocratic, illiberal, antipolitical, and never necessary.

Entomology as a science of inter-depended branches like molecular entomology, insect biotechnology, has made rapid progress. This also implies that there is an urgent need to manage the available resources. In the past five decades, entomology has taken giant steps ahead. The aim of this work is to integrate perspectives across molecular and biochemistry, physiology, reproduction, developmental biology, molecular evolution, genetics and RNAi applications. This century is proclaimed as the Era of Biotechnology and it consists of all types of Mol-Bio-Gen applications, which is an essential component for a thorough understanding of the insect biology. The aim of this work is to provide the comprehensive review of recent research from various geographic areas around the world and contributing authors that are recognized experts in their respective field of Genomic entomology. This Volume emphasizes upon the need for and relevance of studying molecular aspects of entomology in Universities, Agricultural Universities and other centers of molecular research. It will also serve as a landmark source for Insect advance science technology.

Published in 1986: This book tells the story of how various persons and groups have successfully dealt with a type of problem which may threaten the lives and health of every group of humans - every community. The problem is that of a polluted environment.

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 and moths. Molecular Biology and Genetics of the Lepidoptera presents a wide-ranging collection of studies on the Lepidoptera, treating them as specialized insects with distinctive features and as model systems for carrying out cutting-edge research. Leading researchers provide an evolutionary framework for placing moths and butterflies on the Tree of Life. The book covers progress in deciphering the silkworm genome and unraveling lepidopteran sex chromosomes. It features new information on sex determination, evolution, and the development of butterfly wing patterns, eyes, vision, circadian clocks, chemoreceptors, and sexual communication. The contributors discuss the genetics and molecular biology of plant host range and prospects for controlling the major crop pest genus Helicoverpa. They also explore the rise of insecticide resistance, the innate immune response, lepidopteran minihosts for testing human pathogens and antibiotics, and the use of intrahemocoelic toxins for control. The book concludes with coverage of polyDNA virus-carrying parasitoid wasps, and the cloning of the first virus resistance gene in the silkworm. 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 strategies for pest management extremely important. This book will open up new paths to the research literature for a broad audience, including entomologists, evolutionary and systematic biologists, geneticists, physiologists, biochemists, and molecular biologists.

Published in 1986: This book tells the story of how various persons and groups have successfully dealt with a type of problem which may threaten the lives and health of every group of humans - every community. The problem is that of a polluted environment.

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 and moths. Molecular Biology and Genetics of the Lepidoptera presents a wide-ranging collection of studies on the Lepidoptera, treating them as specialized insects with distinctive features and as model systems for carrying out cutting-edge research. Leading researchers provide an evolutionary framework for placing moths and butterflies on the Tree of Life. The book covers progress in deciphering the silkworm genome and unraveling lepidopteran sex chromosomes. It features new information on sex determination, evolution, and the development of butterfly wing patterns, eyes, vision, circadian clocks, chemoreceptors, and sexual communication. The contributors discuss the genetics and molecular biology of plant host range and prospects for controlling the major crop pest genus Helicoverpa. They also explore the rise of insecticide resistance, the innate immune response, lepidopteran minihosts for testing human pathogens and antibiotics, and the use of intrahemocoelic toxins for control. The book concludes with coverage of polyDNA virus-carrying parasitoid wasps, and the cloning of the first virus resistance gene in the silkworm. 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 strategies for pest management extremely important. This book will open up new paths to the research literature for a broad audience, including entomologists, evolutionary and systematic biologists, geneticists, physiologists, biochemists, and molecular biologists.

Entomology as a science of inter-depended branches like molecular entomology, insect biotechnology, has made rapid progress. This also implies that there is an urgent need to manage the available resources. In the past five decades, entomology has taken giant steps ahead. The aim of this work is to integrate perspectives across molecular and biochemistry, physiology, reproduction, developmental biology, molecular evolution, genetics and RNAi applications. This century is proclaimed as the Era of Biotechnology and it consists of all types of Mol-Bio-Gen applications, which is an essential component for a thorough understanding of the insect biology. The aim of this work is to provide the comprehensive review of recent research from various geographic areas around the world and contributing authors that are recognized experts in their respective field of Genomic entomology. This Volume emphasizes upon the need for and relevance of studying molecular aspects of entomology in Universities, Agricultural Universities and other centers of molecular research. It will also serve as a landmark source for Insect advance science technology.

This book presents a diverse collection of chapters on basic research at the molecular level using the Lepidoptera as model systems. This volume, however, is more than just a compendium of information about insect systems in general or the Lepidoptera in particular. Each chapter is a self-contained treatment of a broad subject area, providing sufficient background to give readers a sense of the guiding principles and central questions associated with each topic, in addition to major methodologies and findings. Comparisons with other major model systems are emphasized, with special attention given to the fruit fly, Drosophila melanogaster. Topics include a historical overview of research using lepidopteran models, silkworm genetics, mobile elements of lepidopteran genomes, lepidopteran phylogeny, experimental embryogenesis and homeotic genes, chorion gene regulation and evolution, regulation of silk protein and homeobox genes in the silk gland, control of transcription by RNA polymerase III, hormonal regulation of gene expression during development, hormone action in the central nervous system, the molecular genetics of moth olfaction, the immune response, and use of engineered baculoviruses for basic biological studies and insect pest control. Molecular and developmental biologists at graduate student and researcher levels will find this book of great interest.

This book presents a diverse collection of chapters on basic research at the molecular level using Lepidoptera as model systems. This volume, however, is more than just a compendium of information about insect systems in general, or the Lepidoptera in particular. Each chapter is a self-contained treatment of a broad subject area, providing sufficient background information to give readers a sense of the guiding principles and central questions associated with each topic, in addition to major methodologies and findings. Comparisons with other major model systems are emphasized, with special attention given to the fruit fly, Drosophila melanogaster. Topics include: genetics, mobile elements, embryogenesis, silk gland and chorion gene regulation, hormone action, neurobiology, the immune response and engineered baculoviruses. Molecular and developmental biologists at graduate and researcher levels will find this book of great interest.

Crochet hats featuring 6 basic designs with mix and match facial features. Create a dinosaur, bear, puppy, wolf, panda, and a giraffe. Though there are 6 basic designs, a minimum of 18 possible combinations exist so you can create your very own unique crochet hatimal This book includes instructions for all sizes from newborn through large adults You can make something for everyone in the family How cute would mother/daughter father/son hats be?